Lisdexamfetamine is a prodrug of dextroamphetamine, a centrally acting stimulant indicated for treatment of Attention-Deficit Hyperactivity Disorder (ADHD) in adults and pediatric patients 6 years and older and for treating binge-eating disorder (BED) in adults. Lisdexamfetamine and other stimulants are considered first-line therapy in the treatment of Attention-Deficit Hyperactivity Disorder (ADHD), and are best utilized as part of a comprehensive approach including psychological, educational, and/or social interventions. Drug therapy is not intended for use in children with symptoms resulting from environmental factors or other primary psychiatric disorders. Efficacy for moderate to severe binge-eating disorder (BED) in adults up to 55 years of age was evidenced by the primary outcome of a greater reduction in the reported number of binge-eating days per week versus placebo. Lisdexamfetamine is not indicated for or recommended for weight loss or the treatment of obesity. Use of other sympathomimetic drugs for weight loss has been associated with serious cardiovascular adverse events. As with other amphetamines, assess all patients for risk for substance abuse prior to treatment, and monitor treated patients for signs and symptoms of abuse and dependence during therapy. Lisdexamfetamine was initially FDA-approved in 2007.
General Administration Information
For storage information, see the specific product information within the How Supplied section.
Route-Specific Administration
Oral Administration
Oral Solid Formulations
-Administer dose once daily in the morning. Avoid afternoon doses due to the potential for sleep interference.
-May be given without regard to meals.
-Do not administer less than 1 chewable tablet or capsule per day; a single chewable tablet or capsule should not be divided.
-Chewable tablets: Must be chewed completely before swallowing.
-Capsules: Swallow whole. Alternatively, the capsule may be opened and the mixed with yogurt, water, or orange juice as follows:-If the capsule contents include any compacted powder, use a spoon to break apart the powder.
-Mix the entire capsule contents in the medium until completely dispersed. The active ingredient will dissolve completely, but a film containing the inactive ingredients may remain in the glass or container after the mixture is consumed.
-Instruct the patient to consume the entire mixture immediately; do not store.
Side effects of amphetamines are frequent, particularly during initiation of therapy, but are usually mild to moderate in severity at normally prescribed dosages. Centrally-mediated adverse effects which may be noted in the first weeks of treatment include insomnia, mild euphoria, and restlessness. Avoidance of exercising late in the day, limiting intake of caffeinated beverages, and keeping regular bedtime schedules may limit sleep disruption. Continued interrupted sleep patterns may indicate a need for dosage reduction. In clinical trials of pediatrics with attention-deficit hyperactivity disorder (ADHD), CNS effects resulting in discontinuation that occurred in at least 1% of patients receiving lisdexamfetamine and at a rate twice that of placebo included psychomotor hyperactivity and insomnia in children and irritability and insomnia in adolescents. CNS effects not requiring discontinuation that occurred in at least 2% of children or adolescents receiving lisdexamfetamine and at least twice as often as placebo included dizziness (5%), irritability (10%), affect lability (3%), somnolence/drowsiness (2%), tremor (2%), fever (2%), and insomnia (13% to 22%). During a placebo-controlled clinical trial in adults with ADHD, CNS effects resulting in discontinuation that occurred in at least 1% of patients receiving lisdexamfetamine and at a rate twice that of placebo included insomnia, irritability, and headache. Centrally-mediated effects occurring in at least 2% of patients included jitteriness (4%), tremor (2%), insomnia (27%), and restlessness (3%). During clinical trials of adults with binge-eating disorder (BED), the following centrally-mediated effects occurred in at least 2% of patients receiving lisdexamfetamine and with an incidence at least twice that of placebo-treated patients: insomnia (36%), feeling jittery (6%), paresthesias (2%), increased energy (2%), nightmares (2%), and restlessness (2%). Common side effects that occur with amphetamines include headache, dullness, or fatigue; paresthesias and overstimulation have also been noted. Headache may respond to dosage reduction. Most side effects disappear within a few weeks of continued use. Children treated for ADHD who become overly preoccupied with a task (overfocused or inflexible) or are described as 'zombie-like' are considered to exhibit supranormalization; these behaviors typically require a dosage reduction. Seizures have also occurred with the use of amphetamines, including lisdexamfetamine. Stimulant medications have the potential to lower the seizure threshold in patients with a prior history of seizures, in patients with a history of EEG abnormalities without a history of seizures, and rarely in patients without a seizure history or EEG abnormalities. Stimulant medications should be discontinued if seizures develop.
Affect lability was reported in 3% of children receiving lisdexamfetamine during clinical trials compared to 0% of those receiving placebo. During a placebo-controlled clinical trial in adults with attention-deficit hyperactivity disorder (ADHD), anxiety occurred in 6% of patients receiving lisdexamfetamine and resulted in drug discontinuation in 1%. Agitation occurred in 3% of adults compared to 0% of those who received placebo. During clinical trials of adults with binge-eating disorder (BED), anxiety occurred in 5% of patients receiving lisdexamfetamine and 1% of patients receiving placebo. Stimulant medications, such as lisdexamfetamine, can cause a variety of psychiatric symptoms (i.e., hallucinations, delusional thinking, euphoria, dysphoria, or mania) in patients without a prior psychiatric history. In a cohort study assessing 221,846 adolescents and young adults who received a prescription for a stimulant for ADHD, new-onset psychosis occurred in approximately 1 in 660 patients. The percentage of patients who had a psychotic episode was 0.1% in patients receiving methylphenidate compared to 0.21% in patients receiving amphetamine (hazard ratio with amphetamine use, 1.65; 95% CI 1.31 to 2.09). The median time from when the stimulant was dispensed to the psychotic episode was 128 days. Discontinuation of the drug may be required if these symptoms occur. In addition, the use of stimulants may exacerbate symptoms of a pre-existing psychotic disorder; particular caution should be exercised when treating patients with bipolar disorder. Aggression and hostility have been reported during the use of medications for ADHD, including lisdexamfetamine, during clinical trials and postmarketing use. Although causality to the drugs has not been established and these behaviors are often observed in children and adolescents with ADHD, monitoring is recommended for emergence or worsening of aggression or hostility during initiation of treatment with a stimulant. Psychiatric effects that have been reported during postmarketing use of lisdexamfetamine include depression, aggression, and dermatillomania. The frequencies are unknown, and causality to the drug has not been established. Other adverse effects that are associated with use of amphetamines include tearfulness and sadness (emotional lability). Signs and symptoms of excessive dosages or overdose may include anxiety, agitation, delirium, hallucinations, paranoia, purposeless movements, or psychosis.
Visual impairment such as blurred vision, mydriasis, difficulties with visual accomodation, and diplopia have been reported during postmarketing use of lisdexamfetamine.
The onset or exacerbation of motor and/or verbal tics has been reported in clinical trials and postmarketing use of lisdexamfetamine. In clinical trials of pediatric patients, tics occurred in 2% of children receiving lisdexamfetamine compared to no reports in the placebo group. Tics were also the cause of drug discontinuation in 1% of children in pediatric clinical trials for attention-deficit hyperactivity disorder (ADHD). Dyskinesia has also been reported during postmarketing use of lisdexamfetamine. Patients should be monitored for the emergence or worsening of dyskinesias, tics, or Tourette's syndrome; consider dose reduction or discontinuation of treatment if clinically indicated.
Weight loss and growth inhibition are associated with stimulant use; careful monitoring of growth in pediatric patients receiving stimulants is recommended. Patients younger than 6 years (a population in which lisdexamfetamine is not approved for use) experience more long term weight loss than those 6 years and older. In clinical trials of lisdexamfetamine in attention-deficit hyperactivity disorder (ADHD), weight loss occurred in 9% of children and adolescents who received lisdexamfetamine versus 0% to 1% of those who received placebo. In a study of children aged 6 to 12 receiving lisdexamfetamine 30-mg, 50-mg, and 70-mg, the mean weight loss from baseline over 4 weeks was -0.9, -1.9, and -2.5 pounds, respectively, compared to a 1 pound weight gain for patients receiving placebo. Adolescents aged 13 to 17 years had a mean weight loss from baseline of -2.7, -4.3, and -4.8 pounds when receiving the same doses over 4 weeks compared to a 2 pound weight gain for patients receiving placebo. In adults with ADHD, the mean weight loss after 4 weeks of therapy was 2.8 pounds, 3.1 pounds, and 4.3 pounds in patients receiving doses of 30-mg, 50-mg, and 70-mg, respectively, compared to 0.5 pounds for those on placebo. During clinical trials of adults with binge-eating disorder (BED), weight loss occurred in 4% of patients receiving lisdexamfetamine and no patients receiving placebo. Eating small, frequent meals or snacks may help limit appetite problems and ensure nutritional intake, especially in pediatric patients. Growth inhibition is a possible long-term side effect of the use of stimulants, including lisdexamfetamine, in children and adolescents; proposed mechanisms have included the suppression of appetite or an alteration in growth hormone secretion. Follow-up of children aged 6 to 12 years who were consistently medicated with lisdexamfetamine (treatment for 7 days/week) over a 12-month period showed a slowing in growth rate. Average percentiles normalized for age and sex were 60.6 at baseline and 47.2 at the end of the 12-month treatment period. Some have suggested that the use of drug holidays will allow growth to 'catch-up'. However, drug holidays are typically reserved for children with well-controlled ADHD symptoms, and drug holidays are of unproved value in limiting growth suppression. Growth rebound has been observed after stimulant discontinuation in children and clinical studies do not indicate that amphetamines compromise the attainment of normal adult height and weight. However, practitioners should monitor for this side effect by monitoring height and weight parameters relative to age at the initiation of treatment and periodically during therapy (at minimum yearly). Patients who are not growing or gaining weight as expected may need to have their treatment interrupted. In a 24-month follow-up, the MultiModal Treatment Study showed a deceleration of growth of roughly 1 cm per year with stimulant use. In general, growth remained in the normal curve for most children, except those in the lowest percentiles of height for age.
Gastrointestinal (GI) complaints may occur during treatment with amphetamines. The effect of amphetamines on motility of the GI tract may produce either constipation or diarrhea. In clinical trials of pediatrics with attention-deficit hyperactivity disorder (ADHD), GI effects resulting in discontinuation that occurred in at least 1% of patients receiving lisdexamfetamine and at a rate twice that of placebo included nausea and vomiting in children and decreased appetite in adolescents. GI-related effects occurring in at least 2% of children or adolescents receiving lisdexamfetamine and at least twice as often as placebo included decreased appetite (34% to 39%), upper abdominal pain (12%), vomiting (9%), weight loss (9%), nausea (6%), xerostomia (4% to 5%), and anorexia (2%). During a placebo-controlled clinical trial in adults with ADHD, GI effects occurring in at least 2% of patients included xerostomia (26%), diarrhea (7%), nausea (7%), anorexia (5%), and decreased appetite (27%). During clinical trials of adults with binge-eating disorder (BED), the following adverse GI effects occurred in at least 2% of patients receiving lisdexamfetamine and with an incidence at least twice that of placebo-treated patients: xerostomia (36%), decreased appetite (8%), constipation (6%), diarrhea (4%), vomiting (2%), gastroenteritis (2%), oropharyngeal pain (2%), and upper abdominal pain (2%). Teeth grinding (bruxism), dysgeusia, bowel ischemia, and constipation have been reported during postmarketing use. Dyspepsia has also been reported with amphetamine use. Complaints of xerostomia or dysgeusia may be limited by sucking sugarless hard candy, crushed ice, and drinking plenty of water or other fluids. Continued decreased appetite, decreased weight, or abdominal pain may indicate a need for dosage reduction. Most side effects disappear within a few weeks of continued use.
In normal therapeutic doses, amphetamines may induce increases in both systolic and diastolic blood pressure and exacerbate hypertension. In adult patients, stimulant medications cause a modest increase in mean blood pressure (2 to 4 mmHg) and heart rate (3 to 6 bpm); however, some patients may have larger increases. Dizziness, sinus tachycardia, or palpitations may occur. A reflex sinus bradycardia, which is not usually clinically significant, is common. Isolated reports of cardiomyopathy have been associated with chronic amphetamine administration. Cardiac effects occurring in at least 2% of adolescents receiving lisdexamfetamine and at least twice as often as placebo included palpitations (2%). During a placebo-controlled clinical trial in adults with ADHD, cardiac effects occurring in at least 2% of patients included increased blood pressure (3%), increased heart rate (2%), and palpitations (2%). During clinical trials of adults with binge-eating disorder (BED), increased heart rate (7%) occurred in at least 2% of patients receiving lisdexamfetamine and with an incidence at least twice that of placebo-treated patients. Chest pain (unspecified) and cardiomyopathy have been reported during postmarketing use of lisdexamfetamine. Myocardial infarction, stroke, and sudden unexplained death (SUD) have occurred with the use of amphetamines. Sudden cardiac death has been reported in association with CNS stimulant treatment at usual doses in children and adolescents with structural cardiac abnormalities. Although some structural cardiac abnormalities alone may carry an increased risk of sudden death, stimulant products generally should not be used in children, adolescents, or adults with known structural cardiac abnormalities or other serious heart conditions. If any patient develops symptoms suggestive of cardiac disease such as exertional chest pain or unexplained syncope, promptly conduct a thorough cardiac examination. Minor manifestations of any of these symptoms may indicate a need for dosage reduction or discontinuation. Severe cardiac adverse effects (e.g., arrhythmia or arrhythmia exacerbation, severe hypertension or hypotension) may be associated with amphetamine toxicity; evaluate patients carefully who present with cardiac symptoms for possible overdose.
In clinical trials of children with attention-deficit hyperactivity disorder (ADHD), rash (unspecified) occurred in 3% of patients receiving lisdexamfetamine versus none in the placebo group. During clinical trials of adults with binge-eating disorder (BED), pruritus occurred in 2% of patients receiving lisdexamfetamine and 1% of patients receiving placebo; hyperhidrosis was reported in 4% of patients receiving lisdexamfetamine and no patients receiving placebo. During a placebo-controlled clinical trial in adults with attention-deficit hyperactivity disorder (ADHD), hyperhidrosis occurred in 3% of patients receiving lisdexamfetamine and none of those receiving placebo. Adverse dermatologic or related effects that have occurred during postmarketing use of lisdexamfetamine include anaphylactoid reactions (unspecified), Stevens-Johnson Syndrome, angioedema, alopecia, and urticaria; however, the frequencies are unknown and causality to the drug has not been established. Toxic epidermal necrolysis, photosensitivity, and alopecia have been reported during the use of other amphetamines.
Stimulants used to treat ADHD, including lisdexamfetamine, are associated with peripheral vasculopathy. Effects of peripheral vasoconstriction, including Raynaud's phenomenon, were observed in postmarketing reports at therapeutic doses in all age groups throughout the course of treatment. Signs and symptoms are usually intermittent and mild and generally improve after reduction in dose or discontinuation of drug. However, very rare sequelae include digital skin ulcer and/or soft tissue breakdown. Carefully monitor for digital changes during treatment with ADHD stimulants. Further clinical evaluation (e.g., rheumatology referral) may be appropriate for certain patients.
Genitourinary effects that have occurred with the use of ADHD medications include changes in sexual desire (libido increase or decrease), priapism, and impotence (erectile dysfunction). In clinical trials of adult patients, libido decrease and impotence were reported in 1.4% and 2.6% of patients, respectively. Libido changes and frequent or prolonged erections have been reported during postmarketing use of lisdexamfetamine. Priapism often occurs after a dose increase and has also been reported during periods of drug holidays or discontinuation. Prolonged erections in male patients should be promptly reported, as immediate diagnosis and treatment are essential to avoid tissue damage.
During a placebo-controlled clinical trial in adults, dyspnea occurred in 2% of patients receiving lisdexamfetamine compared to 0% of those receiving placebo.
Rhabdomyolysis has been associated with the use of stimulants used to treat attention-deficit hyperactivity disorder, including lisdexamfetamine; stimulant-induced rhabdomyolysis is most often associated with sympathomimetic toxicity. Toxic effects of amphetamines, including lisdexamfetamine, are more variable in children than in adults and appear to occur over a wide dosage range; toxic symptoms may occur at idiosyncratically at low doses. Practitioners should be alert to the signs of excessive dosages or overdose which may include: anxiety, agitation, confusion, biting, blurred vision, delirium, diaphoresis, flushing or pallor, hallucinations, hyperthermia, labile blood pressure and heart rate (hypotension or hypertension), mydriasis, palpitations, paranoia, purposeless movements, hyperreflexia, psychosis, sinus tachycardia, tachypnea, or tremor. Minor manifestation of any of these symptoms during prescription use indicates a need for dosage reduction or discontinuation. Some of these symptoms overlap with symptoms associated with serotonin excess. Severe manifestations of amphetamine overdose include cardiac arrhythmias including heart block, circulatory collapse, rhabdomyolysis, seizures, coma, and death. Fatal poisoning is usually preceded by seizures and coma.
Serotonin syndrome may occur when amphetamines are used in combination with other drugs that enhance serotonin activity. Symptoms may include mental status changes (e.g., agitation, hallucinations, delirium, coma), gastrointestinal symptoms (e.g., nausea, vomiting, diarrhea), autonomic instability (e.g., tachycardia, labile blood pressure, dizziness, diaphoresis, flushing, hyperthermia), neuromuscular symptoms (e.g., tremor, rigidity, myoclonus, hyperreflexia, incoordination), and seizures. If such symptoms emerge, discontinue lisdexamfetamine and any concomitant serotonergic agent immediately and initiate supportive symptomatic treatment. Amphetamines, including lisdexamfetamine, stimulate the release of serotonin (5-HT) and may act as direct agonists on central serotonin receptors. Thus, amphetamines are both direct and indirect stimulants of serotonin activity.
Eosinophilic hepatitis has been reported during postmarketing use of lisdexamfetamine. The frequency is unknown and causality to the drug has not been established.
During clinical trials of adults with binge-eating disorder (BED), urinary tract infection occurred in 2% of patients receiving lisdexamfetamine and no patients receiving placebo.
Psychological dependence, physiological dependence, and tolerance may occur with lisdexamfetamine therapy. Abrupt discontinuation or a significant dose reduction of CNS stimulants after prolonged use may produce withdrawal symptoms that include dysphoria, depression, fatigue, vivid and unpleasant dreams, insomnia or hypersomnia, increased appetite, and psychomotor retardation or agitation.
Lisdexamfetamine is contraindicated for use in patients with known hypersensitivity to amphetamines or any component of the lisdexamfetamine product.
Central nervous system (CNS) stimulants, such as lisdexamfetamine, have a high potential for abuse and misuse, which can lead to the development of a substance use disorder, including addiction. Caution is recommended in patients with a known history of substance abuse, including alcoholism. Assess each individual's risk for abuse, misuse, or addiction before prescribing a CNS stimulant, and monitor for the development of these behaviors or conditions throughout treatment. Children and adolescents with attention-deficit hyperactivity disorder (ADHD) are more prone to substance abuse compared to those without ADHD, and those with co-occurring mental health conditions (e.g., depression, disruptive behavior disorders) are at even greater risk; however, appropriate treatment of ADHD with medication and behavior therapy may reduce the risk of developing a substance abuse disorder. The American Academy of Pediatrics recommends an active substance abuse disorder be treated appropriately before beginning stimulant medication. In patients with well-documented ADHD that predates the onset of substance abuse, a careful risk/benefit assessment must be conducted and appropriate consultation (e.g., a psychiatrist or addiction specialist) is suggested. To reduce the risk of substance abuse in patients who are prescribed stimulants, prescribers should take special care to 1.) confirm an accurate diagnosis of ADHD, 2.) screen older children and adolescents for use of alcohol, marijuana, and other drugs, 3.) provide age-appropriate anticipatory guidance (e.g., discuss proper medication use, risk of misuse, diversion, and abuse, safe storage of medication, appropriate transition to self-administration in older children), and 4.) carefully document and monitor prescription records closely. Prescribing and dispensing the smallest appropriate quantity may help to minimize abuse, misuse, and overdosage. CNS stimulants can be diverted for non-medical use into illicit channels or distribution. The most common source of non-medical use is sharing from family or friends with misuse of the patient's own prescription or obtaining from illicit channels occurring less frequently. Sharing of CNS stimulant medications can lead to substance abuse disorder and addiction in those they are shared with. Misuse and abuse of CNS stimulants can result in potential for overdose or poisoning and death; the risk is increased with higher doses or unapproved methods of administration, such as snorting or injection. Educate patients and their families about these risks, proper storage, and proper disposal of any unused medication. Misuse or abuse may cause increased heart rate, respiratory rate, or blood pressure; sweating; dilated pupils; hyperactivity; restlessness; insomnia; decreased appetite; loss of coordination; tremors; flushed skin; vomiting; and/or abdominal pain. Anxiety, psychosis, hostility, aggression, and suicidal or homicidal ideation have also been observed with stimulant abuse or misuse.
CNS stimulants should be used with caution in those with bipolar disorder or a pre-existing psychotic disorder (e.g., schizophrenia). CNS stimulants may exacerbate symptoms of behavior disturbance and thought disorder in patients with pre-existing psychosis. These medications can also induce mania or a mixed episode in patients with bipolar disorder. Prior to initiating treatment with lisdexamfetamine, screen patients for risk factors for bipolar disorder or developing an episode of mania (e.g., comorbid or history of depressive symptoms or a family history of suicide, bipolar disorder, or depression). At recommended doses, CNS stimulants may also cause psychotic or manic symptoms (such as hallucinations, delusions, or mania) in patients without a prior history of psychosis or mania. Advise patients and their caregivers to promptly report suicidal ideation or any changes in mood or behavior and consider discontinuing treatment if these symptoms occur.
CNS stimulant medications, including lisdexamfetamine, can cause an increase in blood pressure (mean increase approximately 2 to 4 mmHg) and heart rate (mean increase approximately 3 to 6 beats per minute). Some individuals may have larger increases. Monitor all patients receiving lisdexamfetamine for hypertension and tachycardia.
Sudden death has been reported in patients with structural cardiac abnormalities or other serious cardiac disease who were treated with CNS stimulants at the recommended ADHD dosages. Avoid use of CNS stimulants in patients with known structural cardiac abnormalities, cardiomyopathy, serious cardiac arrhythmias, coronary artery disease, or other serious cardiac disease. Prior to initiating any CNS stimulant, carefully assess patient for the presence of cardiac disease (i.e., perform a careful patient history, assess for any family history of sudden death or ventricular arrhythmia, and complete a physical exam) and counsel patients to report symptoms of cardiac disease (i.e., exertional chest pain, unexplained syncope) immediately. Although it is reasonable for a health care provider to obtain an ECG as part of the cardiovascular evaluation, it is not mandatory. Treatment with stimulant products should not be withheld because an ECG is not performed. However, any patient with significant findings on physical examination, ECG, or from patient or family history (such as known congenital heart disease, structural heart disease, arrhythmias, or a family history of sudden cardiac death in members younger than 35 years of age) should be referred for consultation with a pediatric cardiologist prior to starting the stimulant medication. Overall, studies have not shown an association between the use of ADHD medications and adverse cardiovascular events; however, long-term cardiovascular risks associated with ADHD medications are unknown. Careful monitoring should be performed after initiation of stimulant medications; if any abnormal findings or arrhythmias are diagnosed during treatment, consider discontinuation of the stimulant.
Amphetamines should not be given to patients with thyrotoxicosis. The elevated levels of thyroid hormones in these patients make them extremely sensitive to sympathomimetic drugs.
Lisdexamfetamine is contraindicated in patients who are receiving monoamine oxidase inhibitors (MAOI therapy), including linezolid or intravenous methylene blue, or who have received MAOI therapy within the past 14 days because of the possibility of precipitating a hypertensive crisis. MAOI antidepressants slow amphetamine metabolism, potentiating their effect on the release of norepinephrine and other monoamines from adrenergic nerve endings. This may precipitate hypertensive crisis, malignant hyperthermia, serotonin syndrome, and a variety of toxic neurologic effects; these events can be fatal. Increased risk for serotonin syndrome also may occur when amphetamines are co-administered with serotonergic agents (e.g., SSRIs, SNRIs, triptans, and others), and may also occur during overdosage situations. If serotonin syndrome occurs, discontinue lisdexamfetamine and all other serotonergic agents, and initiate supportive treatment.
CNS stimulants, including lisdexamfetamine, have been associated with the onset or exacerbation of motor and verbal tics. Worsening of Tourette's syndrome has also been reported. Prior to initiating lisdexamfetamine, carefully assess family history and clinically evaluate patients for motor or verbal tics or Tourette's syndrome. Regularly monitor lisdexamfetamine-treated patients for the emergence or worsening of tics or Tourette's syndrome and discontinue treatment if clinically appropriate.
Use lisdexamfetamine with caution in patients with a history of a seizure disorder. Stimulants can lower the seizure threshold, particularly during excess CNS stimulation (i.e., amphetamine overdosage). The effects of amphetamines on the seizure threshold, in normal therapeutic dosages, are less clear. Seizure threshold may be reduced in those with electroencephalogram (EEG) abnormalities and rarely in patients without a seizure history or EEG abnormalities. Seizures have been reported during postmarketing use of lisdexamfetamine; however, the frequency is unknown. If seizures occur, discontinuation of therapy is recommended. Because of a potential increased risk of seizures, amphetamines should not be used during intrathecal radiographic contrast administration. Based upon recommendations for other amphetamines, lisdexamfetamine should be discontinued 48 hours before the myelography and should not be resumed until at least 24 hours after the procedure.
The use of inhalational anesthetics during surgery may sensitize the myocardium to the effects of amphetamines and other sympathomimetic drugs. Patients should check with their surgeon prior to elective surgery regarding any adjustments needed in timing of medications for surgical procedures.
Amphetamines can cause a significant elevation in plasma corticosteroid levels; this increase is greatest in the evening. Amphetamines may cause laboratory test interference with urinary steroid determinations. These effects may need to be considered during testing.
Use lisdexamfetamine with caution in patients with significant hepatic disease or renal impairment. The elimination of amphetamine is dependent on hepatic metabolism, urinary pH and urinary flow rates, as well as active secretion; dysfunction of either system may inhibit elimination and result in prolonged exposure. The mean clearance of lisdexamfetamine's active moiety, d-amphetamine, is reduced in patients with severe renal impairment or renal failure; therefore, reduced maximum daily dosages are recommended. Dialysis does not significantly affect the clearance of d-amphetamine.
In rare instances, stimulant medications may cause prolonged and sometimes painful erections (priapism). All male patients and their caregivers should be counseled on the signs and symptoms of priapism and the importance of seeking immediate medical attention if an erection lasting more than 4 hours occurs. Immediate diagnosis and treatment are essential to avoid tissue damage. Priapism can occur in males of any age; younger males, particularly those who have not reached puberty, may not recognize the problem or may be embarrassed to tell anyone if it occurs. In a review of methylphenidate products by the FDA, the median age of patients who experienced priapism was 12.5 years (range: 8 to 33 years). Reported cases have occurred after a period of time on stimulant therapy and often subsequent to a dose increase. Priapism has also been reported during periods of drug withdrawal (e.g., drug holidays or discontinuation). Practitioners should be aware that both methylphenidate and amphetamine products have been associated with post-marketing reports of priapism; however, causality in relation to the amphetamine products is uncertain because patients had been taking other medications thought to cause priapism. Caution should be used when considering changing male patients from stimulant to non-stimulant medications; atomoxetine is also associated with priapism in young males and appears to carry a higher risk of the condition compared to stimulant medications.
Stimulant medications are associated with peripheral vasculopathy, including Raynaud's phenomenon. Worsening of peripheral vascular disease is possible. Effects on circulation have been observed with therapeutic doses at different times throughout therapy in all age groups. Signs and symptoms are usually intermittent and mild and generally improve after reduction in dose or discontinuation of drug. However, very rare sequelae include digital skin ulcer and/or soft tissue breakdown. Carefully monitor all patients for digital changes during treatment with stimulant medications, especially those with pre-existing circulation problems. Instruct patients to seek immediate medical attention if any new digital numbness, pain, skin discoloration, or temperature sensitivity occur, or if unexplained wounds appear on their fingers or toes. Further clinical evaluation (e.g., rheumatology referral) may be appropriate for patients taking lisdexamfetamine who develop signs or syptoms of peripheral vasculopathy.
Lisdexamfetamine is specifically FDA approved to assist patients with binge-eating disorder (BED). Other eating disorders, such as anorexia nervosa or bulimia nervosa, should be ruled out prior to treatment with lisdexamfetamine for either BED or for attention deficit (ADD/ADHD). Patients with eating disorders may have physiologic complications, such as metabolic and electrolyte abnormalities, which increase their susceptibility to the adverse effects of stimulants. Use of other sympathomimetic drugs for weight loss has been associated with serious cardiovascular adverse events. Lisdexamfetamine is not indicated or recommended to promote generalized weight loss. The safety and effectiveness of lisdexamfetamine for obesity treatment have not been established.
Psychological dependence, physiological dependence, and tolerance may occur with lisdexamfetamine therapy. Abrupt discontinuation or a significant dose reduction of CNS stimulants after prolonged use may produce withdrawal symptoms that include dysphoria, depression, fatigue, vivid and unpleasant dreams, insomnia or hypersomnia, increased appetite, and psychomotor retardation or agitation. Consider monitoring for withdrawal symptoms after significant dose reduction or discontinuation after prolonged use.
CNS stimulants have been associated with weight loss and slowing of growth rate in pediatric patients. Monitor for growth inhibition during stimulant therapy including height and weight parameters relative to age at treatment initiation and periodically thereafter (at minimum yearly). Interrupt treatment in patients who are not growing or gaining weight as expected. Lisdexamfetamine is not approved for use in children less than 6 years of age. In a 4-week, placebo-controlled trial of lisdexamfetamine in pediatric patients ages 6 to 12 years old with ADHD, there was a dose-related decrease in weight in the treated groups relative to weight gain in the placebo group. Additionally, in studies of another stimulant, there was slowing of the increase in height.
Lisdexamfetamine should only be used during pregnancy if the expected benefit clearly outweighs the potential fetal risk. The limited available data from published literature and postmarketing reports on use of lisdexamfetamine during human pregnancy are not sufficient to inform a drug-associated risk for major birth defects and miscarriage; however, there may be risks to the fetus associated with the use of CNS stimulants during pregnancy. There are limited published literature and postmarketing reports on the use of amphetamines during pregnancy; however, most early data are derived from studies of illicit drug use, which may be complicated by comorbid substance abuse or ingestion of higher doses of amphetamines than what is typically prescribed. Amphetamines can cause vasoconstriction and can thereby decrease placental perfusion. This vasoconstriction can also lead to hypertension in the mother. In addition, amphetamines can stimulate uterine contractions, increasing the risk of premature delivery and low birth weight. Non-teratogenic effects are known to occur in neonates who are born to mothers dependent on amphetamines. These have included increased incidences of premature births, low birth weights and length, lower occipitofrontal circumference, and physical withdrawal symptoms (e.g., abnormal sleep patterns, poor feeding, tremor, agitation, fatigue, and hypertonia). In a prospective comparison study, the infant group exposed to cocaine, methamphetamine, or a combination of cocaine and narcotic in utero had a 35.1% incidence of cranial abnormalities (i.e., intraventricular hemorrhage, echodensities known to be associated with necrosis, and cavitary lesions) compared to a 5.3% incidence in the normal infant group as assessed by cranial ultrasonography. The authors speculated that the ultrasonographic abnormalities were likely related to the vasoconstrictive properties of the drugs. There is one case of a neonate born with a severe congenital bony deformity, tracheo-esophageal fistula, and anal atresia following maternal exposure to dextroamphetamine sulfate and lovastatin during the first trimester of pregnancy. However, more recent data demonstrate that risks associated with the use of prescription amphetamine may be lower than initially thought. Among 671 mother-child pairs enrolled in the Collaborative Perinatal Project who had first trimester exposure to amphetamines and 1898 mother-child pairs with amphetamine exposures at any time during pregnancy, there was no evidence suggesting a relationship to large categories of major or minor malformations. Similarly, a large cohort study of pregnancy outcomes in the United States and 5 Nordic countries were compared to assess for the risks of major congenital malformations and cardiac effects in infants exposed to stimulants in utero. Of the 5,571 women who filled a prescription for amphetamine during the first trimester, 253 (4.54%) were diagnosed with malformations. In infants who were not exposed, 62,966 (3.5%) of the nearly 1.8 million infants developed malformations. After adjusting for underlying psychiatric disorders and other potential confounders, no increased risks were observed for amphetamine use compared to controls. When deciding whether to continue, adjust, or stop the medication in a pregnant patient, it is important to weigh the risk of the medication against the risk of untreated illness and how these issues may affect both the mother and the unborn child. The National Pregnancy Registry for ADHD medications is dedicated to evaluating the safety of ADHD medication exposure during pregnancy. Healthcare providers are encouraged to register patients at https://womensmentalhealth.org/research/pregnancyregistry/adhd-medications or by calling 1-866-961-2388.
Because of the potential for serious adverse reactions in nursing infants, including serious cardiovascular reactions, blood pressure and heart rate increase, suppression of growth, and peripheral vasculopathy, advise patients that breast-feeding is not recommended during treatment with lisdexamfetamine. Lisdexamfetamine is a pro-drug of dextroamphetamine. Based on limited case reports in published literature, amphetamine (d-or d, l-) is present in human milk, at relative infant doses of 2% to 13.8% of the maternal weight-adjusted dosage and a milk/plasma ratio ranging between 1.9 and 7.5. There are no reports of adverse effects on the breast-fed infant. Long-term neurodevelopmental effects on infants from amphetamine exposure are unknown. It is possible that large dosages of dextroamphetamine might interfere with milk production, especially in women whose lactation is not well established. The effect of stimulant medication exposure via breast milk on the neurological development of the infant has not been well studied. In a study of 4 women with attention deficit hyperactivity disorder receiving d-amphetamine (median dose 18 mg/day) while breast-feeding, the mean relative infant dose was 5.7% of the weight-adjusted maternal dose (range: 3.9 to 13.8%). Of the 3 infants in whom blood samples were obtained, plasma d-amphetamine levels were undetectable in 1 infant; d-amphetamine levels were approximately 6% and 14% of the corresponding maternal plasma concentrations in the remaining 2 infants. None of the 4 infants in the study showed any adverse effects. If breast-feeding cannot be avoided during administration of a stimulant, the nursing infant should be monitored for signs of central nervous system hyperactivity, including decreased appetite, insomnia, and irritability. If possible, long-term infant exposure to stimulants through breast milk should be avoided since the consequences of such exposure are unknown. Consider the benefits of breast-feeding, the risk of potential infant drug exposure, and the risk of an untreated or inadequately treated condition. If a breast-feeding infant experiences an adverse effect related to a maternally ingested drug, health care providers are encouraged to report the adverse effect to the FDA.
Clinical studies for lisdexamphetamine for attention-deficit hyperactivity disorder (ADHD) did not include sufficient numbers of geriatric adults 65 years of age or older to determine whether they respond differently from younger adults. Clinical studies for binge-eating disorder (BED) did not include adult and geriatric patients older than 55 years of age; therefore, dosing recommendations are not available for this condition. Other reported clinical experience has not identified differences in responses. In general, dose selection for an elderly a geriatric patient should be cautious, usually starting at the low end of the dosing range, reflecting the greater frequency of decreased hepatic, renal, or cardiac function, and of concomitant disease or other drug therapy. Stimulant medications are used as the treatments of choice in the adult patient over 50 years of age with ADHD when behavioral and lifestyle modifications alone have failed to improve concerns associated with inattention, such as task focus and completion, or organization and time management. Medication should be titrated with low doses initially and with a slow increase. Debilitated or geriatric patients may be more susceptible to the CNS and sympathomimetic side effects of the amphetamines; use with caution in the older adult. Side effects of amphetamines or other stimulants are usually mild but may include mood or behavior changes, tremor, insomnia, increased blood pressure, headache, or gastroesophageal reflux or other GI complaints. Adults should have their blood pressure and heart rate checked at baseline and periodically during treatment. If treatment is considered necessary, periodically re-evaluate the long-term usefulness of the drug for the individual patient.
For the treatment of attention-deficit hyperactivity disorder (ADHD):
Oral dosage:
Adults: 30 mg PO once daily in the morning, initially. May increase the dose by 10 to 20 mg/day at weekly intervals. Max: 70 mg/day. Coadministration of certain drugs may need to be avoided or dosage adjustments may be necessary; review drug interactions.
Children and Adolescents 6 to 17 years: 30 mg PO once daily in the morning, initially. May increase the dose by 10 to 20 mg/day at weekly intervals. However, the American Academy of Pediatrics (AAP) recommends a lower initial dose of 20 mg PO once daily, titrated every 3 to 7 days. Individual dosage; use the lowest effective dose. Max: 70 mg/day. Coadministration of certain drugs may need to be avoided or dosage adjustments may be necessary; review drug interactions.
For the treatment of moderate to severe binge-eating disorder:
Oral dosage:
Adults: 30 mg PO once daily, initially. Increase the dose by 20 mg/day at weekly intervals. Usual dose: 50 to 70 mg/day. Max: 70 mg/day. Clinical guidelines suggest that lisdexamfetamine may be used as monotherapy or in combination with psychotherapy. Discontinue therapy if binge-eating does not improve.
For the treatment of cocaine dependence*:
Oral dosage:
Adults: Usual dose: 70 mg/day. Some data indicate patients may require dosing at or above the FDA-labeled max dose for ADHD in order to effectively reduce cocaine use (low certainty, conditional recommendation). A meta-analysis indicated that long-acting psychostimulant medications, including lisdexamfetamine, were associated with better cocaine-related outcomes, including sustained abstinence and cocaine-negative urine screen results. However, no difference was noted in treatment retention. Lisdexamfetamine may be particularly helpful in individuals with comorbid ADHD to assist with treatment of both conditions simultaneously. One guideline suggests that the use of psychostimulants for this indication be limited to specialists who are board certified in addiction medicine, addiction psychiatry, or commensurate training and competency.
Maximum Dosage Limits:
-Adults
70 mg/day PO.
-Geriatric
70 mg/day PO.
-Adolescents
70 mg/day PO.
-Children
6 to 12 years: 70 mg/day PO.
1 to 5 years: Safety and efficacy have not been established.
-Infants
Safety and efficacy have not been established.
-Neonates
Safety and efficacy have not been established.
Patients with Hepatic Impairment Dosing
Specific guidelines for dosage adjustments in hepatic impairment are not available; it appears that no dosage adjustments are needed. Hepatic dysfunction has the potential to slow the elimination of amphetamines; use with caution and titrate dosages carefully.
Patients with Renal Impairment Dosing
GFR 30 mL/minute/1.73 m2 or more: Specific dosage adjustments not specified; titrate dosage carefully in patients with renal impairment.
GFR 15 to 29 mL/minute/1.73 m2: Do not exceed 50 mg/day PO.
GFR less than 15 mL/minute/1.73 m2: Do not exceed 30 mg/day PO.
Intermittent hemodialysis
Lisdexamfetamine and d-amphetamine are not dialyzable.
*non-FDA-approved indication
Acarbose: (Moderate) Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when pseudoephedrine, phenylephrine, and other sympathomimetics are administered to patients taking antidiabetic agents. Epinephrine and other sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Acebutolol: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug.
Acetaminophen; Aspirin, ASA; Caffeine: (Moderate) Avoid excessive caffeine intake during use of lisdexamfetamine. Caffeine is a CNS-stimulant and such actions are expected to be additive when coadministered with other CNS stimulants or psychostimulants. Excessive caffeine ingestion (via medicines, foods like chocolate, dietary supplements, or beverages including coffee, green tea, other teas, colas) may contribute to side effects like nervousness, irritability, nausea, insomnia, or tremor. Patients should avoid medications and dietary supplements which contain high amounts of caffeine.
Acetaminophen; Aspirin, ASA; Caffeine: (Moderate) Avoid excessive caffeine intake during use of lisdexamfetamine. Caffeine is a CNS-stimulant and such actions are expected to be additive when coadministered with other CNS stimulants or psychostimulants. Excessive caffeine ingestion (via medicines, foods like chocolate, dietary supplements, or beverages including coffee, green tea, other teas, colas) may contribute to side effects like nervousness, irritability, nausea, insomnia, or tremor. Patients should avoid medications and dietary supplements which contain high amounts of caffeine.
Acetaminophen; Caffeine: (Moderate) Avoid excessive caffeine intake during use of lisdexamfetamine. Caffeine is a CNS-stimulant and such actions are expected to be additive when coadministered with other CNS stimulants or psychostimulants. Excessive caffeine ingestion (via medicines, foods like chocolate, dietary supplements, or beverages including coffee, green tea, other teas, colas) may contribute to side effects like nervousness, irritability, nausea, insomnia, or tremor. Patients should avoid medications and dietary supplements which contain high amounts of caffeine.
Acetaminophen; Caffeine; Dihydrocodeine: (Moderate) Avoid excessive caffeine intake during use of lisdexamfetamine. Caffeine is a CNS-stimulant and such actions are expected to be additive when coadministered with other CNS stimulants or psychostimulants. Excessive caffeine ingestion (via medicines, foods like chocolate, dietary supplements, or beverages including coffee, green tea, other teas, colas) may contribute to side effects like nervousness, irritability, nausea, insomnia, or tremor. Patients should avoid medications and dietary supplements which contain high amounts of caffeine. (Moderate) If concomitant use of dihydrocodeine and lisdexamfetamine is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Acetaminophen; Caffeine; Pyrilamine: (Moderate) Avoid excessive caffeine intake during use of lisdexamfetamine. Caffeine is a CNS-stimulant and such actions are expected to be additive when coadministered with other CNS stimulants or psychostimulants. Excessive caffeine ingestion (via medicines, foods like chocolate, dietary supplements, or beverages including coffee, green tea, other teas, colas) may contribute to side effects like nervousness, irritability, nausea, insomnia, or tremor. Patients should avoid medications and dietary supplements which contain high amounts of caffeine.
Acetaminophen; Codeine: (Moderate) If concomitant use of codeine and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Acetaminophen; Hydrocodone: (Moderate) If concomitant use of hydrocodone and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Acetaminophen; Oxycodone: (Moderate) If concomitant use of oxycodone and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Acetazolamide: (Moderate) Urinary alkalinizers, such as acetazolamide and methazolamide, result in decreased renal excretion of amphetamines. Monitor for amphetamine-related side effects. Avoid concomitant use in amphetamine overdose situations. Urinary alkalinizers increase the proportion of non-ionized metabolites of the amphetamine molecule, resulting in decreased renal excretion of these compounds. Alkaline urine will significantly increase the half-life of lisdexamfetamine.
Albuterol: (Moderate) Monitor blood pressure and heart rate during concomitant albuterol and lisdexamfetamine use. Concomitant use may potentiate sympathetic effects.
Albuterol; Budesonide: (Moderate) Monitor blood pressure and heart rate during concomitant albuterol and lisdexamfetamine use. Concomitant use may potentiate sympathetic effects.
Alfentanil: (Moderate) Because of the potential risk and severity of serotonin syndrome, caution should be observed when administering alfentanil with amphetamines. Inform patients taking this combination of the possible increased risk and monitor for the emergence of serotonin syndrome particularly during treatment initiation and dose adjustment. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs.
Aliskiren: (Minor) Close monitoring of blood pressure or the selection of alternative therapeutic agents may be needed in patients receiving aliskiren and lisdexamfetamine. Amphetamines increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents.
Aliskiren; Hydrochlorothiazide, HCTZ: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Close monitoring of blood pressure or the selection of alternative therapeutic agents may be needed in patients receiving aliskiren and lisdexamfetamine. Amphetamines increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents.
Alkalinizing Agents: (Moderate) Monitor for an increase in the incidence and severity of amphetamine-related adverse effects during concomitant use of urinary alkalinizing agents. Increasing urine pH may increase amphetamine exposure by reducing urinary excretion of amphetamine. A urine pH more than 7.5 has been observed to increase the half-life of amphetamine from 8 to 10.5 hours to 16 to 31 hours when compared to a pH less than 6. Additionally, a urine pH more than 8 has been observed to reduce the amount of amphetamine excreted in the urine over 16 hours to less than 3% of the original dose; a 5-fold reduction compared to controls.
Almotriptan: (Major) Initiate with lower doses and monitor patients for signs and symptoms of serotonin syndrome, particularly during treatment initiation or dosage increase, during concomitant lisdexamfetamine and serotonin-receptor agonist use. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk of serotonin syndrome.
Alogliptin: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking dipeptidyl peptidase-4 (DPP-4) inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Alogliptin; Metformin: (Moderate) Monitor for loss of glycemic control when amphetamines are administered to patients taking antidiabetic agents. Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Sympathomimetic agents, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking dipeptidyl peptidase-4 (DPP-4) inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Alogliptin; Pioglitazone: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking dipeptidyl peptidase-4 (DPP-4) inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes. (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking thiazolidinediones. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Alpha-glucosidase Inhibitors: (Moderate) Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when pseudoephedrine, phenylephrine, and other sympathomimetics are administered to patients taking antidiabetic agents. Epinephrine and other sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Aluminum Hydroxide: (Minor) Monitor for an increase in amphetamine-related adverse effects during concomitant antacid use. Increasing gastric or urine pH may increase amphetamine exposure and the risk for side effects in some patients. As antacids have rarely been observed to increase gastric or urinary pH above 6.5, antacid-related pH changes may be insufficient to warrant clinical concern in most patients.
Aluminum Hydroxide; Magnesium Carbonate: (Minor) Monitor for an increase in amphetamine-related adverse effects during concomitant antacid use. Increasing gastric or urine pH may increase amphetamine exposure and the risk for side effects in some patients. As antacids have rarely been observed to increase gastric or urinary pH above 6.5, antacid-related pH changes may be insufficient to warrant clinical concern in most patients.
Aluminum Hydroxide; Magnesium Hydroxide: (Minor) Monitor for an increase in amphetamine-related adverse effects during concomitant antacid use. Increasing gastric or urine pH may increase amphetamine exposure and the risk for side effects in some patients. As antacids have rarely been observed to increase gastric or urinary pH above 6.5, antacid-related pH changes may be insufficient to warrant clinical concern in most patients.
Aluminum Hydroxide; Magnesium Hydroxide; Simethicone: (Minor) Monitor for an increase in amphetamine-related adverse effects during concomitant antacid use. Increasing gastric or urine pH may increase amphetamine exposure and the risk for side effects in some patients. As antacids have rarely been observed to increase gastric or urinary pH above 6.5, antacid-related pH changes may be insufficient to warrant clinical concern in most patients.
Aluminum Hydroxide; Magnesium Trisilicate: (Minor) Monitor for an increase in amphetamine-related adverse effects during concomitant antacid use. Increasing gastric or urine pH may increase amphetamine exposure and the risk for side effects in some patients. As antacids have rarely been observed to increase gastric or urinary pH above 6.5, antacid-related pH changes may be insufficient to warrant clinical concern in most patients.
Ambrisentan: (Minor) Sympathomimetics such as lisdexamfetamine can antagonize the effects of vasodilators when administered concomitantly. Patients should be monitored for reduced efficacy of ambrisentan.
Amifampridine: (Major) Carefully consider the need for concomitant treatment with lisdexamfetamine and amifampridine, as coadministration may increase the risk of seizures. If coadministration occurs, closely monitor patients for seizure activity. Seizures have been observed in patients without a history of seizures taking amifampridine at recommended doses. Lisdexamfetamine may increase the risk of seizures.
Amiloride: (Minor) Lisedexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like potassium-sparing diuretics. Close monitoring of blood pressure is advised.
Amiloride; Hydrochlorothiazide, HCTZ: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Lisedexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like potassium-sparing diuretics. Close monitoring of blood pressure is advised.
Amitriptyline: (Moderate) Monitor blood pressure, heart rate, and for signs and symptoms of serotonin syndrome, particularly during treatment initiation and dosage increase, during concomitant amphetamine and tricyclic antidepressant use. Adjust doses or use alternative therapy based on clinical response. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk for potentiation of cardiovascular effects and serotonin syndrome. Amphetamines may enhance the activity of tricyclic antidepressants causing significant and sustained increases in amphetamine concentrations in the brain.
Amlodipine: (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Amlodipine; Atorvastatin: (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Amlodipine; Benazepril: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised. (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Amlodipine; Celecoxib: (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Amlodipine; Olmesartan: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised. (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Amlodipine; Valsartan: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised. (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Amlodipine; Valsartan; Hydrochlorothiazide, HCTZ: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised. (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Angiotensin II receptor antagonists: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised.
Angiotensin-converting enzyme inhibitors: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised.
Antacids: (Minor) Monitor for an increase in amphetamine-related adverse effects during concomitant antacid use. Increasing gastric or urine pH may increase amphetamine exposure and the risk for side effects in some patients. As antacids have rarely been observed to increase gastric or urinary pH above 6.5, antacid-related pH changes may be insufficient to warrant clinical concern in most patients.
Armodafinil: (Moderate) The use of armodafinil with other psychostimulants, including amphetamines, (e.g., dextroamphetamine, lisdexamfetamine, amphetamine) has not been studied. In a single-dose study of dextroamphetamine combined with modafinil, a racemic compound containing armodafinil, no pharmacokinetic interactions occurred but a slight increase in stimulant-associated side effects was noted. Patients receiving combination therapy of armodafinil with other psychostimulants should be closely observed for signs of nervousness, irritability, insomnia, arrhythmias, or other stimulant-related side effects.
Articaine; Epinephrine: (Moderate) Monitor blood pressure and heart rate during concomitant amphetamine and epinephrine use. Amphetamines may potentiate the pressor effects of epinephrine.
Ascorbic Acid, Vitamin C: (Moderate) Concurrent use of amphetamines and gastrointestinal acidifying agents, such as ascorbic acid, vitamin C, should be used with caution. Vitamin C lowers the absorption of amphetamines, resulting in reduced efficacy. It may be advisable to separate times of administration. In addition, ascorbic acid acts as a urinary acidifier, which reduces the renal tubular reabsorption of amphetamines, accelerating amphetamine clearance and reducing the duration of effect. If combined use is necessary, the amphetamine dose should be adjusted according to clinical response as needed.
Aspirin, ASA; Butalbital; Caffeine: (Moderate) Avoid excessive caffeine intake during use of lisdexamfetamine. Caffeine is a CNS-stimulant and such actions are expected to be additive when coadministered with other CNS stimulants or psychostimulants. Excessive caffeine ingestion (via medicines, foods like chocolate, dietary supplements, or beverages including coffee, green tea, other teas, colas) may contribute to side effects like nervousness, irritability, nausea, insomnia, or tremor. Patients should avoid medications and dietary supplements which contain high amounts of caffeine.
Aspirin, ASA; Caffeine: (Moderate) Avoid excessive caffeine intake during use of lisdexamfetamine. Caffeine is a CNS-stimulant and such actions are expected to be additive when coadministered with other CNS stimulants or psychostimulants. Excessive caffeine ingestion (via medicines, foods like chocolate, dietary supplements, or beverages including coffee, green tea, other teas, colas) may contribute to side effects like nervousness, irritability, nausea, insomnia, or tremor. Patients should avoid medications and dietary supplements which contain high amounts of caffeine.
Aspirin, ASA; Caffeine; Orphenadrine: (Moderate) Avoid excessive caffeine intake during use of lisdexamfetamine. Caffeine is a CNS-stimulant and such actions are expected to be additive when coadministered with other CNS stimulants or psychostimulants. Excessive caffeine ingestion (via medicines, foods like chocolate, dietary supplements, or beverages including coffee, green tea, other teas, colas) may contribute to side effects like nervousness, irritability, nausea, insomnia, or tremor. Patients should avoid medications and dietary supplements which contain high amounts of caffeine.
Aspirin, ASA; Carisoprodol; Codeine: (Moderate) If concomitant use of codeine and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Aspirin, ASA; Citric Acid; Sodium Bicarbonate: (Moderate) Monitor for an increase in the incidence and severity of amphetamine-related adverse effects during concomitant use of urinary alkalinizing agents. Increasing urine pH may increase amphetamine exposure by reducing urinary excretion of amphetamine. A urine pH more than 7.5 has been observed to increase the half-life of amphetamine from 8 to 10.5 hours to 16 to 31 hours when compared to a pH less than 6. Additionally, a urine pH more than 8 has been observed to reduce the amount of amphetamine excreted in the urine over 16 hours to less than 3% of the original dose; a 5-fold reduction compared to controls.
Aspirin, ASA; Oxycodone: (Moderate) If concomitant use of oxycodone and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Atenolol: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug.
Atenolol; Chlorthalidone: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug. (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH.
Azilsartan: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised.
Azilsartan; Chlorthalidone: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised.
Benazepril: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised.
Benazepril; Hydrochlorothiazide, HCTZ: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised.
Benzoic Acid; Hyoscyamine; Methenamine; Methylene Blue; Phenyl Salicylate: (Contraindicated) Amphetamines should not be administered during or within 14 days after the use of methylene blue. Methylene blue is a potent, reversible monoamine oxidase inhibitor (MAOI) which can prolong and intensify the cardiac stimulation and vasopressor effects of amphetamines, potentially resulting in hypertensive crisis. Methylene blue also has the potential to interact with serotonergic agents, such as amphetamines, which may increase the risk for serotonin syndrome. Serotonin syndrome is characterized by mental status changes (e.g., agitation, hallucinations, delirium, and coma), autonomic instability (e.g., tachycardia, labile blood pressure, dizziness, diaphoresis, flushing, hyperthermia), neuromuscular symptoms (e.g., tremor, rigidity, myoclonus, hyperreflexia, incoordination), seizures, gastrointestinal symptoms (e.g., nausea, vomiting, diarrhea), and in rare instances, death. Cases of serotonin syndrome have been reported, primarily following administration of standard infusions of methylene blue (1 to 8 mg/kg) as a visualizing agent in parathyroid surgery, in patients receiving selective serotonin reuptake inhibitors, serotonin/norepinephrine reuptake inhibitors, or clomipramine. It is not known if patients receiving other serotonergic psychiatric agents, such as amphetamines, with intravenous methylene blue are at a comparable risk or if methylene blue administered by other routes (e.g., orally, local injection) or in doses less than 1 mg/kg IV can produce a similar outcome. Published interaction reports between intravenously administered methylene blue and serotonergic psychiatric agents have documented symptoms including lethargy, confusion, delirium, agitation, aggression, obtundation, myoclonus, expressive aphasia, hypertonia, pyrexia, elevated blood pressure, seizures, and/or coma. (Major) Concurrent use of urinary acidifying agents, such as methenamine salts (e.g., methenamine containing urinary products) and lisdexamfetamine should be avoided if possible. Urinary acidifying agents reduce the tubular reabsorption of amphetamines. As a result, amphetamine clearance is accelerated and the duration of effect is reduced. If combination therapy is necessary, adjust the lisdexamfetamine dose according to clinical response as needed.
Beta-blockers: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug.
Betaxolol: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug.
Bethanechol: (Moderate) Bethanechol offsets the effects of sympathomimetics at sites where sympathomimetic and cholinergic receptors have opposite effects.
Bexagliflozin: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking SGLT2 inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Bisoprolol: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug.
Bisoprolol; Hydrochlorothiazide, HCTZ: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug. (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH.
Bretylium: (Moderate) Monitor blood pressure and heart rate closely when sympathomimetics are administered with bretylium. The pressor and arrhythmogenic effects of catecholamines are enhanced by bretylium.
Brimonidine; Timolol: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug.
Bromocriptine: (Moderate) Concurrent use of bromocriptine and some sympathomimetics such as amphetamines should be approached with caution. One case report documented worsening headache, hypertension, premature ventricular complexes, and ventricular tachycardia in a post-partum patient receiving bromocriptine for lactation suppression who was subsequently prescribed an isometheptene-containing medication for a headache. A second case involved a post-partum patient receiving bromocriptine who was later prescribed a phenylpropanolamine-expectorant combination and subsequently developed hypertension, tachycardia, seizures, and cerebral vasospasm.
Bumetanide: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as loop diuretics. Close monitoring of blood pressure is advised.
Bupivacaine; Epinephrine: (Moderate) Monitor blood pressure and heart rate during concomitant amphetamine and epinephrine use. Amphetamines may potentiate the pressor effects of epinephrine.
Buprenorphine: (Moderate) If concomitant use of buprenorphine and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Buprenorphine; Naloxone: (Moderate) If concomitant use of buprenorphine and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Bupropion: (Moderate) Use extreme caution when coadministering bupropion with other drugs that lower the seizure threshold, such as stimulants including lisdexamfetamine. Use low initial doses of bupropion and increase the dose gradually.
Bupropion; Naltrexone: (Moderate) Use extreme caution when coadministering bupropion with other drugs that lower the seizure threshold, such as stimulants including lisdexamfetamine. Use low initial doses of bupropion and increase the dose gradually.
Buspirone: (Moderate) Coadministration of buspirone with amphetamines may increase the risk of serotonin syndrome. At high doses, amphetamines can increase serotonin release and act as serotonin agonists. Buspirone has some serotonergic properties. Inform patients taking this combination of the possible increased risk and monitor for the emergence of serotonin syndrome, particularly during treatment initiation and dose increases. If serotonin syndrome occurs, all serotonergic drugs should be discontinued and appropriate medical treatment should be initiated.
Butalbital; Acetaminophen; Caffeine: (Moderate) Avoid excessive caffeine intake during use of lisdexamfetamine. Caffeine is a CNS-stimulant and such actions are expected to be additive when coadministered with other CNS stimulants or psychostimulants. Excessive caffeine ingestion (via medicines, foods like chocolate, dietary supplements, or beverages including coffee, green tea, other teas, colas) may contribute to side effects like nervousness, irritability, nausea, insomnia, or tremor. Patients should avoid medications and dietary supplements which contain high amounts of caffeine.
Butalbital; Acetaminophen; Caffeine; Codeine: (Moderate) Avoid excessive caffeine intake during use of lisdexamfetamine. Caffeine is a CNS-stimulant and such actions are expected to be additive when coadministered with other CNS stimulants or psychostimulants. Excessive caffeine ingestion (via medicines, foods like chocolate, dietary supplements, or beverages including coffee, green tea, other teas, colas) may contribute to side effects like nervousness, irritability, nausea, insomnia, or tremor. Patients should avoid medications and dietary supplements which contain high amounts of caffeine. (Moderate) If concomitant use of codeine and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Butalbital; Aspirin; Caffeine; Codeine: (Moderate) Avoid excessive caffeine intake during use of lisdexamfetamine. Caffeine is a CNS-stimulant and such actions are expected to be additive when coadministered with other CNS stimulants or psychostimulants. Excessive caffeine ingestion (via medicines, foods like chocolate, dietary supplements, or beverages including coffee, green tea, other teas, colas) may contribute to side effects like nervousness, irritability, nausea, insomnia, or tremor. Patients should avoid medications and dietary supplements which contain high amounts of caffeine. (Moderate) If concomitant use of codeine and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Caffeine: (Moderate) Avoid excessive caffeine intake during use of lisdexamfetamine. Caffeine is a CNS-stimulant and such actions are expected to be additive when coadministered with other CNS stimulants or psychostimulants. Excessive caffeine ingestion (via medicines, foods like chocolate, dietary supplements, or beverages including coffee, green tea, other teas, colas) may contribute to side effects like nervousness, irritability, nausea, insomnia, or tremor. Patients should avoid medications and dietary supplements which contain high amounts of caffeine. (Moderate) CNS-stimulating actions of caffeine can be additive with other CNS stimulants. Patients may need to reduce, limit, or avoid caffeine intake. Excessive caffeine ingestion (via medicines, supplements or beverages including coffee, green tea, other teas, guarana, colas) may contribute to side effects like nervousness, irritability, insomnia, or tremor.
Caffeine; Sodium Benzoate: (Moderate) Avoid excessive caffeine intake during use of lisdexamfetamine. Caffeine is a CNS-stimulant and such actions are expected to be additive when coadministered with other CNS stimulants or psychostimulants. Excessive caffeine ingestion (via medicines, foods like chocolate, dietary supplements, or beverages including coffee, green tea, other teas, colas) may contribute to side effects like nervousness, irritability, nausea, insomnia, or tremor. Patients should avoid medications and dietary supplements which contain high amounts of caffeine.
Calcium Carbonate: (Minor) Monitor for an increase in amphetamine-related adverse effects during concomitant antacid use. Increasing gastric or urine pH may increase amphetamine exposure and the risk for side effects in some patients. As antacids have rarely been observed to increase gastric or urinary pH above 6.5, antacid-related pH changes may be insufficient to warrant clinical concern in most patients.
Calcium Carbonate; Famotidine; Magnesium Hydroxide: (Minor) Monitor for an increase in amphetamine-related adverse effects during concomitant antacid use. Increasing gastric or urine pH may increase amphetamine exposure and the risk for side effects in some patients. As antacids have rarely been observed to increase gastric or urinary pH above 6.5, antacid-related pH changes may be insufficient to warrant clinical concern in most patients.
Calcium Carbonate; Magnesium Hydroxide: (Minor) Monitor for an increase in amphetamine-related adverse effects during concomitant antacid use. Increasing gastric or urine pH may increase amphetamine exposure and the risk for side effects in some patients. As antacids have rarely been observed to increase gastric or urinary pH above 6.5, antacid-related pH changes may be insufficient to warrant clinical concern in most patients.
Calcium Carbonate; Magnesium Hydroxide; Simethicone: (Minor) Monitor for an increase in amphetamine-related adverse effects during concomitant antacid use. Increasing gastric or urine pH may increase amphetamine exposure and the risk for side effects in some patients. As antacids have rarely been observed to increase gastric or urinary pH above 6.5, antacid-related pH changes may be insufficient to warrant clinical concern in most patients.
Calcium Carbonate; Simethicone: (Minor) Monitor for an increase in amphetamine-related adverse effects during concomitant antacid use. Increasing gastric or urine pH may increase amphetamine exposure and the risk for side effects in some patients. As antacids have rarely been observed to increase gastric or urinary pH above 6.5, antacid-related pH changes may be insufficient to warrant clinical concern in most patients.
Calcium, Magnesium, Potassium, Sodium Oxybates: (Moderate) Sodium oxybate has the potential to induce seizures; it has been speculated that this effect may be mediated through the action of sodium oxybate at GABA receptors. Although convulsant effects occur primarily at high dosages, sodium oxybate should be used cautiously with psychostimulants that are known to lower seizure threshold such as the amphetamines. Note that CNS stimulants, including the amphetamines, methylphenidate, and modafinil are frequently used in the treatment of narcolepsy, and clinical trials involving the use of psychostimulants with sodium oxybate have not found the combinations to be unsafe. Pharmacodynamic interactions cannot be ruled out, however.
Calcium; Vitamin D: (Minor) Monitor for an increase in amphetamine-related adverse effects during concomitant antacid use. Increasing gastric or urine pH may increase amphetamine exposure and the risk for side effects in some patients. As antacids have rarely been observed to increase gastric or urinary pH above 6.5, antacid-related pH changes may be insufficient to warrant clinical concern in most patients.
Calcium-channel blockers: (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Canagliflozin: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking SGLT2 inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Canagliflozin; Metformin: (Moderate) Monitor for loss of glycemic control when amphetamines are administered to patients taking antidiabetic agents. Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Sympathomimetic agents, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking SGLT2 inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Candesartan: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised.
Candesartan; Hydrochlorothiazide, HCTZ: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised.
Captopril: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised.
Captopril; Hydrochlorothiazide, HCTZ: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised.
Carbonic anhydrase inhibitors: (Moderate) Urinary alkalinizers, such as acetazolamide and methazolamide, result in decreased renal excretion of amphetamines. Monitor for amphetamine-related side effects. Avoid concomitant use in amphetamine overdose situations. Urinary alkalinizers increase the proportion of non-ionized metabolites of the amphetamine molecule, resulting in decreased renal excretion of these compounds. Alkaline urine will significantly increase the half-life of lisdexamfetamine.
Carteolol: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug.
Carvedilol: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug.
Celecoxib; Tramadol: (Moderate) If concomitant use of tramadol and lisdexamfetamine is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Chlordiazepoxide; Amitriptyline: (Moderate) Monitor blood pressure, heart rate, and for signs and symptoms of serotonin syndrome, particularly during treatment initiation and dosage increase, during concomitant amphetamine and tricyclic antidepressant use. Adjust doses or use alternative therapy based on clinical response. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk for potentiation of cardiovascular effects and serotonin syndrome. Amphetamines may enhance the activity of tricyclic antidepressants causing significant and sustained increases in amphetamine concentrations in the brain.
Chlorothiazide: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH.
Chlorpheniramine; Codeine: (Moderate) If concomitant use of codeine and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Chlorpheniramine; Hydrocodone: (Moderate) If concomitant use of hydrocodone and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Chlorthalidone: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH.
Citalopram: (Moderate) Coadministration of selective serotonin reuptake inhibitors (SSRIs) like citalopram with amphetamines may increase the risk of serotonin syndrome. At high doses, amphetamines can increase serotonin release and act as serotonin agonists. Inform patients taking this combination of the possible increased risk and monitor for the emergence of serotonin syndrome, particularly during treatment initiation and dose increases. If serotonin syndrome occurs, serotonergic drugs should be discontinued and appropriate medical treatment should be initiated.
Citric Acid; Potassium Citrate; Sodium Citrate: (Major) Urinary alkalinizers, such as potassium citrate, diminish the urinary excretion of amphetamines. These drug combinations should be avoided, especially in amphetamine overdose situations. (Moderate) Monitor for an increase in the incidence and severity of amphetamine-related adverse effects during concomitant use of urinary alkalinizing agents. Increasing urine pH may increase amphetamine exposure by reducing urinary excretion of amphetamine. A urine pH more than 7.5 has been observed to increase the half-life of amphetamine from 8 to 10.5 hours to 16 to 31 hours when compared to a pH less than 6. Additionally, a urine pH more than 8 has been observed to reduce the amount of amphetamine excreted in the urine over 16 hours to less than 3% of the original dose; a 5-fold reduction compared to controls.
Clevidipine: (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Clomipramine: (Moderate) Monitor blood pressure, heart rate, and for signs and symptoms of serotonin syndrome, particularly during treatment initiation and dosage increase, during concomitant amphetamine and tricyclic antidepressant use. Adjust doses or use alternative therapy based on clinical response. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk for potentiation of cardiovascular effects and serotonin syndrome. Amphetamines may enhance the activity of tricyclic antidepressants causing significant and sustained increases in amphetamine concentrations in the brain.
Clonidine: (Minor) Close monitoring of blood pressure or the selection of alternative therapeutic agents may be needed in patients receiving clonidine and lisdexamfetamine. Amphetamines increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents.
Clorazepate: (Major) Patients who are taking anticonvulsants for epilepsy/seizure control should use lisdexamfetamine with caution. Amphetamines may decrease the seizure threshold and may increase the risk of seizures. If seizures occur, amphetamine discontinuation may be necessary.
Cocaine: (Major) Avoid concomitant use of additional vasoconstrictor agents with cocaine. If unavoidable, prolonged vital sign and ECG monitoring may be required. Myocardial ischemia, myocardial infarction, and ventricular arrhythmias have been reported after concomitant administration of topical intranasal cocaine and vasoconstrictor agents during nasal and sinus surgery. The risk for nervousness, irritability, convulsions, and other cardiac arrhythmias may increase during coadministration.
Codeine: (Moderate) If concomitant use of codeine and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Codeine; Guaifenesin: (Moderate) If concomitant use of codeine and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Codeine; Guaifenesin; Pseudoephedrine: (Moderate) If concomitant use of codeine and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Codeine; Phenylephrine; Promethazine: (Moderate) If concomitant use of codeine and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Codeine; Promethazine: (Moderate) If concomitant use of codeine and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Dacomitinib: (Moderate) Warn patients that the risk of amphetamine toxicity, including serotonin syndrome, may be increased during concurrent use with dacomitinib. Concurrent use of dacomitinib, a strong CYP2D6 inhibitor, may increase exposure to the amphetamine increasing the risk for serotonin syndrome. If serotonin syndrome occurs, both the amphetamine and dacomitinib should be discontinued and appropriate medical treatment should be implemented.
Dapagliflozin: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking SGLT2 inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Dapagliflozin; Metformin: (Moderate) Monitor for loss of glycemic control when amphetamines are administered to patients taking antidiabetic agents. Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Sympathomimetic agents, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking SGLT2 inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Dapagliflozin; Saxagliptin: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking dipeptidyl peptidase-4 (DPP-4) inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes. (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking SGLT2 inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Delavirdine: (Moderate) Warn patients that there are potentially serious drug interactions between delavirdine and prescription amphetamine therapy or illicit amphetamine use. The risk of amphetamine toxicity may be increased during concurrent use of potent CYP2D6 inhibitors such as delavirdine. Amphetamines are partially metabolized by CYP2D6 and have serotonergic properties; inhibition of amphetamine metabolism may increase the risk of serotonin syndrome or other toxicity. If serotonin syndrome occurs, both the amphetamine and CYP2D6 inhibitor should be discontinued and appropriate medical treatment should be implemented.
Desipramine: (Moderate) Monitor blood pressure, heart rate, and for signs and symptoms of serotonin syndrome, particularly during treatment initiation and dosage increase, during concomitant amphetamine and tricyclic antidepressant use. Adjust doses or use alternative therapy based on clinical response. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk for potentiation of cardiovascular effects and serotonin syndrome. Amphetamines may enhance the activity of tricyclic antidepressants causing significant and sustained increases in amphetamine concentrations in the brain.
Desvenlafaxine: (Major) Initiate with lower doses and monitor patients for signs and symptoms of serotonin syndrome, particularly during treatment initiation or dosage increase, during concomitant lisdexamfetamine and serotonin norepinephrine reuptake inhibitor use. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk of serotonin syndrome.
Dextromethorphan; Bupropion: (Moderate) Use extreme caution when coadministering bupropion with other drugs that lower the seizure threshold, such as stimulants including lisdexamfetamine. Use low initial doses of bupropion and increase the dose gradually.
Dextromethorphan; Quinidine: (Moderate) Warn patients that the risk of amphetamine toxicity may be increased during concurrent use of quinidine, a strong CYP2D6 inhibitor. Amphetamines are partially metabolized by CYP2D6 and have serotonergic properties; inhibition of amphetamine metabolism may increase the risk of serotonin syndrome or other toxicity. If serotonin syndrome occurs, both the amphetamine and CYP2D6 inhibitor should be discontinued and appropriate medical treatment should be implemented.
Diazoxide: (Moderate) Use sympathomimetic agents with caution in patients receiving therapy for hypertension. Patients should be monitored to confirm that the desired antihypertensive effect is achieved. Sympathomimetics can increase blood pressure and heart rate, and antagonize the antihypertensive effects of vasodilators when administered concomitantly. Anginal pain may be induced when coronary insufficiency is present.
Dihydroergotamine: (Major) Amphetamines, which increase catecholamine release, can increase blood pressure; this effect may be additive with the prolonged vasoconstriction caused by ergot alkaloids. Monitoring for cardiac effects during concurrent use of ergot alkaloids with amphetamines may be advisable.
Diltiazem: (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Dipeptidyl Peptidase-4 Inhibitors: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking dipeptidyl peptidase-4 (DPP-4) inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Dorzolamide; Timolol: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug.
Doxazosin: (Minor) Close monitoring of blood pressure or the selection of alternative therapeutic agents may be needed in patients receiving doxazosin and amphetamines. Amphetamines increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as doxazosin.
Doxepin: (Moderate) Monitor blood pressure, heart rate, and for signs and symptoms of serotonin syndrome, particularly during treatment initiation and dosage increase, during concomitant amphetamine and tricyclic antidepressant use. Adjust doses or use alternative therapy based on clinical response. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk for potentiation of cardiovascular effects and serotonin syndrome. Amphetamines may enhance the activity of tricyclic antidepressants causing significant and sustained increases in amphetamine concentrations in the brain.
Dronabinol: (Moderate) Concurrent use of dronabinol, THC with sympathomimetics may result in additive hypertension, tachycardia, and possibly cardiotoxicity. Dronabinol, THC has been associated with occasional hypotension, hypertension, syncope, and tachycardia. In a study of 7 adult males, combinations of IV cocaine and smoked marijuana, 1 g marijuana cigarette, 0 to 2.7% delta-9-THC, increased the heart rate above levels seen with either agent alone, with increases plateauing at 50 bpm.
Dulaglutide: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking incretin mimetics. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Duloxetine: (Major) Initiate with lower doses and monitor patients for signs and symptoms of serotonin syndrome, particularly during treatment initiation or dosage increase, during concomitant lisdexamfetamine and serotonin norepinephrine reuptake inhibitor use. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk of serotonin syndrome.
Eletriptan: (Major) Initiate with lower doses and monitor patients for signs and symptoms of serotonin syndrome, particularly during treatment initiation or dosage increase, during concomitant lisdexamfetamine and serotonin-receptor agonist use. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk of serotonin syndrome.
Empagliflozin: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking SGLT2 inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Empagliflozin; Linagliptin: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking dipeptidyl peptidase-4 (DPP-4) inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes. (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking SGLT2 inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Empagliflozin; Linagliptin; Metformin: (Moderate) Monitor for loss of glycemic control when amphetamines are administered to patients taking antidiabetic agents. Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Sympathomimetic agents, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking dipeptidyl peptidase-4 (DPP-4) inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes. (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking SGLT2 inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Empagliflozin; Metformin: (Moderate) Monitor for loss of glycemic control when amphetamines are administered to patients taking antidiabetic agents. Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Sympathomimetic agents, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking SGLT2 inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Enalapril, Enalaprilat: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised.
Enalapril; Hydrochlorothiazide, HCTZ: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised.
Epinephrine: (Moderate) Monitor blood pressure and heart rate during concomitant amphetamine and epinephrine use. Amphetamines may potentiate the pressor effects of epinephrine.
Eplerenone: (Minor) Close monitoring of blood pressure or the selection of alternative therapeutic agents may be needed in patients receiving eplerenone and lisdexamfetamine. Amphetamines increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents.
Epoprostenol: (Major) Avoid use of sympathomimetic agents with epoprostenol. Sympathomimetics counteract the medications used to stabilize pulmonary hypertension, including epoprostenol. Sympathomimetics can increase blood pressure, increase heart rate, and may cause vasoconstriction resulting in chest pain and shortness of breath in these patients. Patients should be advised to avoid amphetamine drugs, decongestants (including nasal decongestants) and sympathomimetic anorexiants for weight loss, including dietary supplements. Intravenous vasopressors may be used in the emergency management of pulmonary hypertension patients when needed, but hemodynamic monitoring and careful monitoring of cardiac status are needed to avoid ischemia and other complications.
Eprosartan: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised.
Eprosartan; Hydrochlorothiazide, HCTZ: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised.
Ergoloid Mesylates: (Major) Amphetamines, which increase catecholamine release, can increase blood pressure; this effect may be additive with the prolonged vasoconstriction caused by ergot alkaloids. Monitoring for cardiac effects during concurrent use of ergot alkaloids with amphetamines may be advisable.
Ergot alkaloids: (Major) Amphetamines, which increase catecholamine release, can increase blood pressure; this effect may be additive with the prolonged vasoconstriction caused by ergot alkaloids. Monitoring for cardiac effects during concurrent use of ergot alkaloids with amphetamines may be advisable.
Ergotamine: (Major) Amphetamines, which increase catecholamine release, can increase blood pressure; this effect may be additive with the prolonged vasoconstriction caused by ergot alkaloids. Monitoring for cardiac effects during concurrent use of ergot alkaloids with amphetamines may be advisable.
Ergotamine; Caffeine: (Major) Amphetamines, which increase catecholamine release, can increase blood pressure; this effect may be additive with the prolonged vasoconstriction caused by ergot alkaloids. Monitoring for cardiac effects during concurrent use of ergot alkaloids with amphetamines may be advisable. (Moderate) Avoid excessive caffeine intake during use of lisdexamfetamine. Caffeine is a CNS-stimulant and such actions are expected to be additive when coadministered with other CNS stimulants or psychostimulants. Excessive caffeine ingestion (via medicines, foods like chocolate, dietary supplements, or beverages including coffee, green tea, other teas, colas) may contribute to side effects like nervousness, irritability, nausea, insomnia, or tremor. Patients should avoid medications and dietary supplements which contain high amounts of caffeine.
Ertugliflozin: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking SGLT2 inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Ertugliflozin; Metformin: (Moderate) Monitor for loss of glycemic control when amphetamines are administered to patients taking antidiabetic agents. Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Sympathomimetic agents, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking SGLT2 inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Ertugliflozin; Sitagliptin: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking dipeptidyl peptidase-4 (DPP-4) inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes. (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking SGLT2 inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Escitalopram: (Moderate) Coadministration of selective serotonin reuptake inhibitors (SSRIs) like escitalopram with amphetamines may increase the risk of serotonin syndrome. At high doses, amphetamines can increase serotonin release and act as serotonin agonists. Inform patients taking this combination of the possible increased risk and monitor for the emergence of serotonin syndrome, particularly during treatment initiation and dose increases. If serotonin syndrome occurs, serotonergic drugs should be discontinued and appropriate medical treatment should be initiated.
Esketamine: (Major) Closely monitor blood pressure during concomitant use of esketamine and an amphetamine. Coadministration of psychostimulants, such as amphetamines, with esketamine may increase blood pressure, including the possibility of hypertensive crisis.
Eslicarbazepine: (Moderate) Patients who are taking anticonvulsants for epilepsy/seizure control should use amphetamines with caution. Amphetamines may decrease the seizure threshold and may increase the risk of seizures. If seizures occur, amphetamine discontinuation may be necessary. Additionally, amphetamines may delay the intestinal absorption of ethosuximide, ethotoin (hydantoin), phenobarbital, and phenytoin, the extent of absorption of these seizure medications is not known to be affected.
Esmolol: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug.
Ethacrynic Acid: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as loop diuretics. Close monitoring of blood pressure is advised.
Ethiodized Oil: (Major) Use of medications that lower the seizure threshold, such as lisdexamfetamine, should be discontinued at least 48 hours before myelography and should not be resumed for at least 24 hours postprocedure.
Ethosuximide: (Major) Patients who are taking anticonvulsants for epilepsy/seizure control should use lisdexamfetamine with caution. Amphetamines may decrease the seizure threshold and may increase the risk of seizures. If seizures occur, amphetamine discontinuation may be necessary. Additionally, amphetamines may delay the intestinal absorption of ethosuximide. The extent of absorption of ethosuximide is not known to be affected.
Etomidate: (Moderate) Closely monitor vital signs when general anesthetics and lisdexamfetamine are coadministered; consider dose adjustment individualized to the patient's clinical situation. Lisdexamfetamine may enhance the sympathomimetic effects of general anesthetics.
Exenatide: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking incretin mimetics. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Felbamate: (Major) Patients who are taking anticonvulsants for epilepsy/seizure control should use lisdexamfetamine with caution. Amphetamines may decrease the seizure threshold and may increase the risk of seizures. If seizures occur, amphetamine discontinuation may be necessary.
Felodipine: (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Fenfluramine: (Moderate) Use fenfluramine and amphetamines with caution due to an increased risk of serotonin syndrome. Monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs.
Fenoldopam: (Moderate) Use sympathomimetic agents with caution in patients receiving therapy for hypertension. Patients should be monitored to confirm that the desired antihypertensive effect is achieved. Sympathomimetics can increase blood pressure and heart rate, and antagonize the antihypertensive effects of vasodilators when administered concomitantly. Anginal pain may be induced when coronary insufficiency is present.
Fentanyl: (Moderate) If concomitant use of fentanyl and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Fluoxetine: (Moderate) Monitor for signs and symptoms of serotonin syndrome, particularly during treatment initiation and dosage increase, during concomitant amphetamine and fluoxetine use. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk for serotonin syndrome.
Fluticasone; Salmeterol: (Moderate) Monitor blood pressure and heart rate during concomitant salmeterol and lisdexamfetamine use. Concomitant use may potentiate sympathetic effects.
Fluticasone; Umeclidinium; Vilanterol: (Moderate) Administer sympathomimetics with caution with beta-agonists such as vilanterol. The cardiovascular effects of beta-2 agonists may be potentiated by concomitant use. Monitor the patient for tremors, nervousness, increased heart rate, or other additive side effects.
Fluticasone; Vilanterol: (Moderate) Administer sympathomimetics with caution with beta-agonists such as vilanterol. The cardiovascular effects of beta-2 agonists may be potentiated by concomitant use. Monitor the patient for tremors, nervousness, increased heart rate, or other additive side effects.
Fluvoxamine: (Moderate) Coadministration of selective serotonin reuptake inhibitors (SSRIs) like fluvoxamine with amphetamines may increase the risk of serotonin syndrome. At high doses, amphetamines can increase serotonin release and act as serotonin agonists. Inform patients taking this combination of the possible increased risk and monitor for the emergence of serotonin syndrome, particularly during treatment initiation and dose increases. If serotonin syndrome occurs, serotonergic drugs should be discontinued and appropriate medical treatment should be initiated.
Food: (Moderate) Foods that acidify the urine, such as cranberry juice, orange juice, or those that contain ascorbic acid, vitamin C may increase amphetamine renal excretion. Patients should not significantly alter their diets, however as these changes are not expected to be clinically significant. (Moderate) Foods that alkalinize the urine, such as beets, dairy products, kale, spinach may slightly slow urinary excretion of amphetamines. Patients should not significantly alter their diets, however as these changes are not expected to be clinically significant. (Moderate) In general, food does not significantly interact with the amphetamine stimulants, a dose may be taken with or without food. However, certain gastrointestinal acidifying agents (e.g., certain fruit juices, etc.) can lower the oral absorption of amphetamines. To ensure proper absorption, it may be prudent for the patient to avoid citrus fruits and citrus juices 1 hour before a dose, at the time of dosing, and for the 1 hour following a dose. In addition, the excretion of amphetamines is increased in acidic urine and decreased in alkaline urine. Foods that acidify the urine, such as cranberry juice, orange juice, or those that contain vitamin C (ascorbic acid) may increase amphetamine renal excretion. Conversely, foods that alkalinize the urine, such as beets, dairy products, kale, spinach may slightly slow urinary excretion of amphetamines. Patients should not significantly alter their diets, however, as these changes in urinary pH from foods are not expected to be clinically significant for most patients.
Fosinopril: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised.
Fosinopril; Hydrochlorothiazide, HCTZ: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised.
Frovatriptan: (Major) Initiate with lower doses and monitor patients for signs and symptoms of serotonin syndrome, particularly during treatment initiation or dosage increase, during concomitant lisdexamfetamine and serotonin-receptor agonist use. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk of serotonin syndrome.
Furosemide: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as loop diuretics. Close monitoring of blood pressure is advised.
General anesthetics: (Moderate) Closely monitor vital signs when general anesthetics and lisdexamfetamine are coadministered; consider dose adjustment individualized to the patient's clinical situation. Lisdexamfetamine may enhance the sympathomimetic effects of general anesthetics.
Glimepiride: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking sulfonylureas. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Glipizide: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking sulfonylureas. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Glipizide; Metformin: (Moderate) Monitor for loss of glycemic control when amphetamines are administered to patients taking antidiabetic agents. Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Sympathomimetic agents, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking sulfonylureas. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Glyburide: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking sulfonylureas. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Glyburide; Metformin: (Moderate) Monitor for loss of glycemic control when amphetamines are administered to patients taking antidiabetic agents. Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Sympathomimetic agents, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking sulfonylureas. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Green Tea: (Major) Some green tea products contain caffeine. Caffeine is a CNS-stimulant and such actions are expected to be additive when coadministered with other CNS stimulants. Caffeine should be avoided or used cautiously with sympathomimetics. Excessive caffeine ingestion (via medicines, supplements or beverages including green te) may contribute to side effects like nervousness, irritability, insomnia, or tremor.
Guanfacine: (Moderate) Sympathomimetic agents, such as amphetamines, may increase blood pressure and reduce the antihypertensive effects of antihypertensive agents, such as guanfacine. Monitor blood pressure and heart rate periodically when prescribed together. Guanfacine may be used adjunctively to psychostimulants such as amphetamines in the treatment of attention deficit hyperactivity disorder (ADHD). Pharmacokinetic studies reveal that guanfacine does not influence lisdexamfetamine pharmacokinetics and lisdexamfetamine does not affect guanfacine pharmacokinetics. No dosage adjustments are required when guanfacine and amphetamines are used together for ADHD. Monitor heart rate, blood pressure and for sedation during ADHD treatment.
Homatropine; Hydrocodone: (Moderate) If concomitant use of hydrocodone and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Hydralazine: (Moderate) Use sympathomimetic agents with caution in patients receiving therapy for hypertension. Patients should be monitored to confirm that the desired antihypertensive effect is achieved. Sympathomimetics can increase blood pressure and heart rate, and antagonize the antihypertensive effects of vasodilators when administered concomitantly. Anginal pain may be induced when coronary insufficiency is present.
Hydralazine; Isosorbide Dinitrate, ISDN: (Moderate) Sympathomimetics can antagonize the antianginal effects of nitrates, and can increase blood pressure and/or heart rate. Anginal pain may be induced when coronary insufficiency is present. (Moderate) Use sympathomimetic agents with caution in patients receiving therapy for hypertension. Patients should be monitored to confirm that the desired antihypertensive effect is achieved. Sympathomimetics can increase blood pressure and heart rate, and antagonize the antihypertensive effects of vasodilators when administered concomitantly. Anginal pain may be induced when coronary insufficiency is present.
Hydrochlorothiazide, HCTZ: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH.
Hydrochlorothiazide, HCTZ; Moexipril: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised.
Hydrocodone: (Moderate) If concomitant use of hydrocodone and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Hydrocodone; Ibuprofen: (Moderate) If concomitant use of hydrocodone and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Hydromorphone: (Moderate) If concomitant use of hydromorphone and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Hyoscyamine; Methenamine; Methylene Blue; Phenyl Salicylate; Sodium Biphosphate: (Contraindicated) Amphetamines should not be administered during or within 14 days after the use of methylene blue. Methylene blue is a potent, reversible monoamine oxidase inhibitor (MAOI) which can prolong and intensify the cardiac stimulation and vasopressor effects of amphetamines, potentially resulting in hypertensive crisis. Methylene blue also has the potential to interact with serotonergic agents, such as amphetamines, which may increase the risk for serotonin syndrome. Serotonin syndrome is characterized by mental status changes (e.g., agitation, hallucinations, delirium, and coma), autonomic instability (e.g., tachycardia, labile blood pressure, dizziness, diaphoresis, flushing, hyperthermia), neuromuscular symptoms (e.g., tremor, rigidity, myoclonus, hyperreflexia, incoordination), seizures, gastrointestinal symptoms (e.g., nausea, vomiting, diarrhea), and in rare instances, death. Cases of serotonin syndrome have been reported, primarily following administration of standard infusions of methylene blue (1 to 8 mg/kg) as a visualizing agent in parathyroid surgery, in patients receiving selective serotonin reuptake inhibitors, serotonin/norepinephrine reuptake inhibitors, or clomipramine. It is not known if patients receiving other serotonergic psychiatric agents, such as amphetamines, with intravenous methylene blue are at a comparable risk or if methylene blue administered by other routes (e.g., orally, local injection) or in doses less than 1 mg/kg IV can produce a similar outcome. Published interaction reports between intravenously administered methylene blue and serotonergic psychiatric agents have documented symptoms including lethargy, confusion, delirium, agitation, aggression, obtundation, myoclonus, expressive aphasia, hypertonia, pyrexia, elevated blood pressure, seizures, and/or coma. (Major) Concurrent use of urinary acidifying agents, such as methenamine salts (e.g., methenamine containing urinary products) and lisdexamfetamine should be avoided if possible. Urinary acidifying agents reduce the tubular reabsorption of amphetamines. As a result, amphetamine clearance is accelerated and the duration of effect is reduced. If combination therapy is necessary, adjust the lisdexamfetamine dose according to clinical response as needed.
Ibritumomab Tiuxetan: (Moderate) Monitor for an increase in the incidence and severity of amphetamine-related adverse effects during concomitant use of urinary alkalinizing agents. Increasing urine pH may increase amphetamine exposure by reducing urinary excretion of amphetamine. A urine pH more than 7.5 has been observed to increase the half-life of amphetamine from 8 to 10.5 hours to 16 to 31 hours when compared to a pH less than 6. Additionally, a urine pH more than 8 has been observed to reduce the amount of amphetamine excreted in the urine over 16 hours to less than 3% of the original dose; a 5-fold reduction compared to controls.
Ibuprofen; Oxycodone: (Moderate) If concomitant use of oxycodone and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Iloprost: (Major) Avoid use of sympathomimetic agents with iloprost. Sympathomimetics counteract the medications used to stabilize pulmonary hypertension, including iloprost. Sympathomimetics can increase blood pressure, increase heart rate, and may cause vasoconstriction resulting in chest pain and shortness of breath in these patients. Patients should be advised to avoid amphetamine drugs, decongestants (including nasal decongestants) and sympathomimetic anorexiants for weight loss, including dietary supplements. Intravenous vasopressors may be used in the emergency management of pulmonary hypertension patients when needed, but hemodynamic monitoring and careful monitoring of cardiac status are needed to avoid ischemia and other complications.
Imipramine: (Moderate) Monitor blood pressure, heart rate, and for signs and symptoms of serotonin syndrome, particularly during treatment initiation and dosage increase, during concomitant amphetamine and tricyclic antidepressant use. Adjust doses or use alternative therapy based on clinical response. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk for potentiation of cardiovascular effects and serotonin syndrome. Amphetamines may enhance the activity of tricyclic antidepressants causing significant and sustained increases in amphetamine concentrations in the brain.
Incretin Mimetics: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking incretin mimetics. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Indacaterol; Glycopyrrolate: (Moderate) Administer sympathomimetics with caution with beta-agonists such as indacaterol. The cardiovascular effects of beta-2 agonists may be potentiated by concomitant use. Monitor the patient for tremors, nervousness, increased heart rate, or other additive side effects.
Indapamide: (Moderate) Indapamide may increase blood levels and therefore potentiate the actions of amphetamines. Thiazide diuretics and related drugs like indapamide may increase urinary pH, acting as a urinary alkalinizer, thus reducing urinary excretion and increasing blood concentrations of the amphetamine. Co-administration of amphetamines and urinary alkalinizing agents should be avoided if possible. If needed, monitor for common amphetamine side effects, including decreased appetite, anxiety, dizziness, dry mouth, irritability, insomnia, nausea, increased blood pressure or increased heart rate.
Insulin Aspart: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking insulin. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Insulin Aspart; Insulin Aspart Protamine: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking insulin. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Insulin Degludec: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking insulin. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Insulin Degludec; Liraglutide: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking incretin mimetics. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes. (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking insulin. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Insulin Detemir: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking insulin. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Insulin Glargine: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking insulin. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Insulin Glargine; Lixisenatide: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking incretin mimetics. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes. (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking insulin. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Insulin Glulisine: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking insulin. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Insulin Lispro: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking insulin. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Insulin Lispro; Insulin Lispro Protamine: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking insulin. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Insulin, Inhaled: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking insulin. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Insulins: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking insulin. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Iobenguane I 131: (Major) Discontinue sympathomimetics for at least 5 half-lives before the administration of the dosimetry dose or a therapeutic dose of iobenguane I-131. Do not restart sympathomimetics until at least 7 days after each iobenguane I-131 dose. Drugs that reduce catecholamine uptake or deplete catecholamine stores, such as sympathomimetics, may interfere with iobenguane I-131 uptake into cells and interfere with dosimetry calculations resulting in altered iobenguane I-131 efficacy.
Iodixanol: (Major) Use of medications that lower the seizure threshold, such as lisdexamfetamine, should be discontinued at least 48 hours before myelography and should not be resumed for at least 24 hours postprocedure.
Ioflupane I 123: (Major) Hold amphetamines for 7 days, or at least 5 medication half-lives, prior to performing dopamine transporter (DAT) imaging with radiolabeled ioflupane. Amphetamines bind to the dopamine transporter which may interfere with striatal tracer binding and increase the risk for a false-positive scan.
Iohexol: (Major) Use of medications that lower the seizure threshold, such as lisdexamfetamine, should be discontinued at least 48 hours before myelography and should not be resumed for at least 24 hours postprocedure.
Iomeprol: (Major) Use of medications that lower the seizure threshold, such as lisdexamfetamine, should be discontinued at least 48 hours before myelography and should not be resumed for at least 24 hours postprocedure.
Iopamidol: (Major) Use of medications that lower the seizure threshold, such as lisdexamfetamine, should be discontinued at least 48 hours before myelography and should not be resumed for at least 24 hours postprocedure.
Iopromide: (Major) Use of medications that lower the seizure threshold, such as lisdexamfetamine, should be discontinued at least 48 hours before myelography and should not be resumed for at least 24 hours postprocedure.
Ioversol: (Major) Use of medications that lower the seizure threshold, such as lisdexamfetamine, should be discontinued at least 48 hours before myelography and should not be resumed for at least 24 hours postprocedure.
Ipratropium; Albuterol: (Moderate) Monitor blood pressure and heart rate during concomitant albuterol and lisdexamfetamine use. Concomitant use may potentiate sympathetic effects.
Irbesartan: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised.
Irbesartan; Hydrochlorothiazide, HCTZ: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised.
Isocarboxazid: (Contraindicated) In general, sympathomimetics should be avoided in patients receiving MAOIs due to an increased risk of hypertensive crisis. This applies to sympathomimetics including stimulants for ADHD, narcolepsy or weight loss, nasal, oral, and ophthalmic decongestants and cold products, and respiratory sympathomimetics (e.g., beta agonist drugs). Some local anesthetics also contain a sympathomimetic (e.g., epinephrine). In general, medicines containing sympathomimetic agents should not be used concurrently with MAOIs or within 14 days before or after their use.
Isoflurane: (Moderate) Closely monitor vital signs when general anesthetics and lisdexamfetamine are coadministered; consider dose adjustment individualized to the patient's clinical situation. Lisdexamfetamine may enhance the sympathomimetic effects of general anesthetics.
Isophane Insulin (NPH): (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking insulin. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Isosorbide Dinitrate, ISDN: (Moderate) Sympathomimetics can antagonize the antianginal effects of nitrates, and can increase blood pressure and/or heart rate. Anginal pain may be induced when coronary insufficiency is present.
Isosorbide Mononitrate: (Moderate) Sympathomimetics can antagonize the antianginal effects of nitrates, and can increase blood pressure and/or heart rate. Anginal pain may be induced when coronary insufficiency is present.
Isosulfan Blue: (Major) Use of medications that lower the seizure threshold, such as lisdexamfetamine, should be discontinued at least 48 hours before myelography and should not be resumed for at least 24 hours postprocedure.
Isradipine: (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Ketamine: (Moderate) Closely monitor vital signs when general anesthetics and lisdexamfetamine are coadministered; consider dose adjustment individualized to the patient's clinical situation. Lisdexamfetamine may enhance the sympathomimetic effects of general anesthetics.
Labetalol: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug.
Lasmiditan: (Moderate) Serotonin syndrome may occur during coadministration of lasmiditan and amphetamines. Inform patients taking this combination of the possible increased risk and monitor for the emergence of serotonin syndrome particularly after a dose increase or the addition of other serotonergic medications to an existing regimen. Discontinue all serotonergic agents if serotonin syndrome occurs and implement appropriate medical management.
Levalbuterol: (Moderate) Monitor blood pressure and heart rate during concomitant albuterol and lisdexamfetamine use. Concomitant use may potentiate sympathetic effects.
Levamlodipine: (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Levobunolol: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug.
Levomilnacipran: (Major) Initiate with lower doses and monitor patients for signs and symptoms of serotonin syndrome, particularly during treatment initiation or dosage increase, during concomitant lisdexamfetamine and serotonin norepinephrine reuptake inhibitor use. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk of serotonin syndrome.
Levorphanol: (Moderate) If concomitant use of levorphanol and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Levothyroxine: (Moderate) Monitor hemodynamic parameters during concomitant sympathomimetic agent and thyroid hormone use; dosage adjustments may be necessary. Concomitant use may increase the effects of sympathomimetics or thyroid hormone.
Levothyroxine; Liothyronine (Porcine): (Moderate) Monitor hemodynamic parameters during concomitant sympathomimetic agent and thyroid hormone use; dosage adjustments may be necessary. Concomitant use may increase the effects of sympathomimetics or thyroid hormone.
Levothyroxine; Liothyronine (Synthetic): (Moderate) Monitor hemodynamic parameters during concomitant sympathomimetic agent and thyroid hormone use; dosage adjustments may be necessary. Concomitant use may increase the effects of sympathomimetics or thyroid hormone.
Lidocaine; Epinephrine: (Moderate) Monitor blood pressure and heart rate during concomitant amphetamine and epinephrine use. Amphetamines may potentiate the pressor effects of epinephrine.
Linagliptin: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking dipeptidyl peptidase-4 (DPP-4) inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Linagliptin; Metformin: (Moderate) Monitor for loss of glycemic control when amphetamines are administered to patients taking antidiabetic agents. Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Sympathomimetic agents, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking dipeptidyl peptidase-4 (DPP-4) inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Linezolid: (Contraindicated) Amphetamines should not be administered during or within 14 days after the use of linezolid. Linezolid possesses MAO-inhibiting activity and can prolong and intensify the cardiac stimulation and vasopressor effects of the amphetamines, potentially resulting in hypertensive crisis. Linezolid also has the potential to interact with serotonergic agents, such as amphetamines, which may increase the risk for serotonin syndrome. Serotonin syndrome is characterized by mental status changes (e.g., agitation, hallucinations, delirium, and coma), autonomic instability (e.g., tachycardia, labile blood pressure, dizziness, diaphoresis, flushing, hyperthermia), neuromuscular symptoms (e.g., tremor, rigidity, myoclonus, hyperreflexia, incoordination), seizures, gastrointestinal symptoms (e.g., nausea, vomiting, diarrhea), and in rare instances, death. If serotonin syndrome occurs, discontinue serotonergic drugs and institute appropriate medical management.
Liothyronine: (Moderate) Monitor hemodynamic parameters during concomitant sympathomimetic agent and thyroid hormone use; dosage adjustments may be necessary. Concomitant use may increase the effects of sympathomimetics or thyroid hormone.
Liraglutide: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking incretin mimetics. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Lisinopril: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised.
Lisinopril; Hydrochlorothiazide, HCTZ: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised.
Lithium: (Major) Use a lower initial lisdexamfetamine dose with concomitant lithium therapy and monitor for serotonin syndrome, particularly during initation or dosage increases. If serotonin syndrome occurs, discontinue lisdexamfetamine and consider discontinuation of lithium. Concomitant use increases the risk of serotonin syndrome.
Lixisenatide: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking incretin mimetics. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Loop diuretics: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as loop diuretics. Close monitoring of blood pressure is advised.
Lopinavir; Ritonavir: (Moderate) Warn patients that the risk of amphetamine toxicity may be increased during concurrent use of ritonavir, a strong CYP2D6 inhibitor. Amphetamines are partially metabolized by CYP2D6 and have serotonergic properties; inhibition of amphetamine metabolism may increase the risk of serotonin syndrome or other toxicity. If serotonin syndrome occurs, both the amphetamine and CYP2D6 inhibitor should be discontinued and appropriate medical treatment should be implemented.
Lorcaserin: (Moderate) Serotonin syndrome may occur during coadministration of serotonergic drugs such as amphetamines and lorcaserin. At high doses, amphetamines can increase serotonin release, as well as act as serotonin agonists. Inform patients taking this combination of the possible increased risk and monitor for the emergence of serotonin syndrome particularly after a dose increase or the addition of other serotonergic medications to an existing regimen. Discontinue all serotonergic agents if serotonin syndrome occurs and implement appropriate medical management. Also, the safety and efficacy of coadministration of lorcaserin with other products for weight loss, including amphetamines, have not been established.
Losartan: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised.
Losartan; Hydrochlorothiazide, HCTZ: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised.
Lurasidone: (Major) Concurrent use of antipsychotics and amphetamines should generally be avoided. Antipsychotics and amphetamines may interact pharmacodynamically to diminish the therapeutic effects of either agent through opposing effects on dopamine. Amphetamines are thought to block central dopamine reuptake, which has the potential to exacerbate psychosis, and antipsychotics, which are central dopamine antagonists, may diminish the effectiveness of amphetamines.
Macitentan: (Major) Avoid use of sympathomimetic agents with macitentan. Sympathomimetics counteract the medications used to stabilize pulmonary hypertension, including macitentan. Sympathomimetics can increase blood pressure, increase heart rate, and may cause vasoconstriction resulting in chest pain and shortness of breath in these patients. Patients should be advised to avoid amphetamine drugs, decongestants (including nasal decongestants) and sympathomimetic anorexiants for weight loss, including dietary supplements. Intravenous vasopressors may be used in the emergency management of pulmonary hypertension patients when needed, but hemodynamic monitoring and careful monitoring of cardiac status are needed to avoid ischemia and other complications.
Macitentan; Tadalafil: (Major) Avoid use of sympathomimetic agents with macitentan. Sympathomimetics counteract the medications used to stabilize pulmonary hypertension, including macitentan. Sympathomimetics can increase blood pressure, increase heart rate, and may cause vasoconstriction resulting in chest pain and shortness of breath in these patients. Patients should be advised to avoid amphetamine drugs, decongestants (including nasal decongestants) and sympathomimetic anorexiants for weight loss, including dietary supplements. Intravenous vasopressors may be used in the emergency management of pulmonary hypertension patients when needed, but hemodynamic monitoring and careful monitoring of cardiac status are needed to avoid ischemia and other complications.
Magnesium Hydroxide: (Minor) Monitor for an increase in amphetamine-related adverse effects during concomitant antacid use. Increasing gastric or urine pH may increase amphetamine exposure and the risk for side effects in some patients. As antacids have rarely been observed to increase gastric or urinary pH above 6.5, antacid-related pH changes may be insufficient to warrant clinical concern in most patients.
Magnesium Salts: (Minor) Monitor for an increase in amphetamine-related adverse effects during concomitant antacid use. Increasing gastric or urine pH may increase amphetamine exposure and the risk for side effects in some patients. As antacids have rarely been observed to increase gastric or urinary pH above 6.5, antacid-related pH changes may be insufficient to warrant clinical concern in most patients.
Maprotiline: (Moderate) Use maprotiline and sympathomimetics together with caution and close clinical monitoring. Regularly assess blood pressure, heart rate, the efficacy of treatment, and the emergence of sympathomimetic/adrenergic adverse events. Carefully adjust dosages as clinically indicated. Maprotiline has pharmacologic activity similar to tricyclic antidepressant agents and may cause additive sympathomimetic effects when combined with agents with adrenergic/sympathomimetic activity.
Mecamylamine: (Major) The cardiovascular effects of sympathomimetics may reduce the antihypertensive effects produced by mecamylamine. Close monitoring of blood pressure or the selection of alternative therapeutic agents may be needed.
Meglitinides: (Moderate) Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when pseudoephedrine, phenylephrine, and other sympathomimetics are administered to patients taking antidiabetic agents. Epinephrine and other sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Meperidine: (Moderate) If concomitant use of meperidine and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Metformin: (Moderate) Monitor for loss of glycemic control when amphetamines are administered to patients taking antidiabetic agents. Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Sympathomimetic agents, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells.
Metformin; Repaglinide: (Moderate) Monitor for loss of glycemic control when amphetamines are administered to patients taking antidiabetic agents. Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Sympathomimetic agents, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. (Moderate) Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when pseudoephedrine, phenylephrine, and other sympathomimetics are administered to patients taking antidiabetic agents. Epinephrine and other sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Metformin; Saxagliptin: (Moderate) Monitor for loss of glycemic control when amphetamines are administered to patients taking antidiabetic agents. Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Sympathomimetic agents, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking dipeptidyl peptidase-4 (DPP-4) inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Metformin; Sitagliptin: (Moderate) Monitor for loss of glycemic control when amphetamines are administered to patients taking antidiabetic agents. Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Sympathomimetic agents, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking dipeptidyl peptidase-4 (DPP-4) inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Methadone: (Moderate) If concomitant use of methadone and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Methazolamide: (Moderate) Urinary alkalinizers, such as acetazolamide and methazolamide, result in decreased renal excretion of amphetamines. Monitor for amphetamine-related side effects. Avoid concomitant use in amphetamine overdose situations. Urinary alkalinizers increase the proportion of non-ionized metabolites of the amphetamine molecule, resulting in decreased renal excretion of these compounds. Alkaline urine will significantly increase the half-life of lisdexamfetamine.
Methenamine: (Major) Concurrent use of urinary acidifying agents, such as methenamine salts (e.g., methenamine containing urinary products) and lisdexamfetamine should be avoided if possible. Urinary acidifying agents reduce the tubular reabsorption of amphetamines. As a result, amphetamine clearance is accelerated and the duration of effect is reduced. If combination therapy is necessary, adjust the lisdexamfetamine dose according to clinical response as needed.
Methenamine; Sodium Acid Phosphate; Methylene Blue; Hyoscyamine: (Contraindicated) Amphetamines should not be administered during or within 14 days after the use of methylene blue. Methylene blue is a potent, reversible monoamine oxidase inhibitor (MAOI) which can prolong and intensify the cardiac stimulation and vasopressor effects of amphetamines, potentially resulting in hypertensive crisis. Methylene blue also has the potential to interact with serotonergic agents, such as amphetamines, which may increase the risk for serotonin syndrome. Serotonin syndrome is characterized by mental status changes (e.g., agitation, hallucinations, delirium, and coma), autonomic instability (e.g., tachycardia, labile blood pressure, dizziness, diaphoresis, flushing, hyperthermia), neuromuscular symptoms (e.g., tremor, rigidity, myoclonus, hyperreflexia, incoordination), seizures, gastrointestinal symptoms (e.g., nausea, vomiting, diarrhea), and in rare instances, death. Cases of serotonin syndrome have been reported, primarily following administration of standard infusions of methylene blue (1 to 8 mg/kg) as a visualizing agent in parathyroid surgery, in patients receiving selective serotonin reuptake inhibitors, serotonin/norepinephrine reuptake inhibitors, or clomipramine. It is not known if patients receiving other serotonergic psychiatric agents, such as amphetamines, with intravenous methylene blue are at a comparable risk or if methylene blue administered by other routes (e.g., orally, local injection) or in doses less than 1 mg/kg IV can produce a similar outcome. Published interaction reports between intravenously administered methylene blue and serotonergic psychiatric agents have documented symptoms including lethargy, confusion, delirium, agitation, aggression, obtundation, myoclonus, expressive aphasia, hypertonia, pyrexia, elevated blood pressure, seizures, and/or coma. (Major) Concurrent use of urinary acidifying agents, such as methenamine salts (e.g., methenamine containing urinary products) and lisdexamfetamine should be avoided if possible. Urinary acidifying agents reduce the tubular reabsorption of amphetamines. As a result, amphetamine clearance is accelerated and the duration of effect is reduced. If combination therapy is necessary, adjust the lisdexamfetamine dose according to clinical response as needed.
Methenamine; Sodium Salicylate: (Major) Concurrent use of urinary acidifying agents, such as methenamine salts (e.g., methenamine containing urinary products) and lisdexamfetamine should be avoided if possible. Urinary acidifying agents reduce the tubular reabsorption of amphetamines. As a result, amphetamine clearance is accelerated and the duration of effect is reduced. If combination therapy is necessary, adjust the lisdexamfetamine dose according to clinical response as needed.
Methohexital: (Major) Inhalational general anesthetics may sensitize the myocardium to the effects of lisdexamfetamine. Dosages of the amphetamines should be substantially reduced prior to surgery, and caution should be observed with concurrent use of anesthetics.
Methsuximide: (Major) Patients who are taking anticonvulsants for epilepsy/seizure control should use lisdexamfetamine with caution. Amphetamines may decrease the seizure threshold and may increase the risk of seizures. If seizures occur, amphetamine discontinuation may be necessary. Additionally, amphetamines may delay the intestinal absorption of ethosuximide. The extent of absorption of ethosuximide is not known to be affected.
Methyldopa: (Minor) Close monitoring of blood pressure or the selection of alternative therapeutic agents may be needed in patients receiving methyldopa and lisdexamfetamine. Amphetamines increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents.
Methylene Blue: (Contraindicated) Amphetamines should not be administered during or within 14 days after the use of methylene blue. Methylene blue is a potent, reversible monoamine oxidase inhibitor (MAOI) which can prolong and intensify the cardiac stimulation and vasopressor effects of amphetamines, potentially resulting in hypertensive crisis. Methylene blue also has the potential to interact with serotonergic agents, such as amphetamines, which may increase the risk for serotonin syndrome. Serotonin syndrome is characterized by mental status changes (e.g., agitation, hallucinations, delirium, and coma), autonomic instability (e.g., tachycardia, labile blood pressure, dizziness, diaphoresis, flushing, hyperthermia), neuromuscular symptoms (e.g., tremor, rigidity, myoclonus, hyperreflexia, incoordination), seizures, gastrointestinal symptoms (e.g., nausea, vomiting, diarrhea), and in rare instances, death. Cases of serotonin syndrome have been reported, primarily following administration of standard infusions of methylene blue (1 to 8 mg/kg) as a visualizing agent in parathyroid surgery, in patients receiving selective serotonin reuptake inhibitors, serotonin/norepinephrine reuptake inhibitors, or clomipramine. It is not known if patients receiving other serotonergic psychiatric agents, such as amphetamines, with intravenous methylene blue are at a comparable risk or if methylene blue administered by other routes (e.g., orally, local injection) or in doses less than 1 mg/kg IV can produce a similar outcome. Published interaction reports between intravenously administered methylene blue and serotonergic psychiatric agents have documented symptoms including lethargy, confusion, delirium, agitation, aggression, obtundation, myoclonus, expressive aphasia, hypertonia, pyrexia, elevated blood pressure, seizures, and/or coma.
Methylergonovine: (Major) Amphetamines, which increase catecholamine release, can increase blood pressure; this effect may be additive with the prolonged vasoconstriction caused by ergot alkaloids. Monitoring for cardiac effects during concurrent use of ergot alkaloids with amphetamines may be advisable.
Metolazone: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH.
Metoprolol: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug.
Metoprolol; Hydrochlorothiazide, HCTZ: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug. (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH.
Miglitol: (Moderate) Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when pseudoephedrine, phenylephrine, and other sympathomimetics are administered to patients taking antidiabetic agents. Epinephrine and other sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Milnacipran: (Major) Initiate with lower doses and monitor patients for signs and symptoms of serotonin syndrome, particularly during treatment initiation or dosage increase, during concomitant lisdexamfetamine and serotonin norepinephrine reuptake inhibitor use. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk of serotonin syndrome.
Minoxidil: (Moderate) Use sympathomimetic agents with caution in patients receiving therapy for hypertension. Patients should be monitored to confirm that the desired antihypertensive effect is achieved. Sympathomimetics can increase blood pressure and heart rate, and antagonize the antihypertensive effects of vasodilators when administered concomitantly. Anginal pain may be induced when coronary insufficiency is present.
Mirtazapine: (Major) Initiate with lower doses and monitor for signs and symptoms of serotonin syndrome, particularly during treatment initiation or dosage increase, during concomitant lisdexamfetamine and mirtazapine use. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk of serotonin syndrome.
Modafinil: (Moderate) The use of modafinil with other psychostimulants, including amphetamines (e.g., amphetamine, dextroamphetamine, lisdexamfetamine), has not been extensively studied. Patients receiving combination therapy of modafinil with other psychostimulants should be closely observed for signs of nervousness, irritability, insomnia, arrhythmias, or other CNS stimulant-related side effects. In single-dose studies of dextroamphetamine combined with modafinil, no significant pharmacokinetic interactions occurred, but a slight increase in stimulant-associated side effects was noted.
Moexipril: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised.
Monoamine oxidase inhibitors: (Contraindicated) In general, sympathomimetics should be avoided in patients receiving MAOIs due to an increased risk of hypertensive crisis. This applies to sympathomimetics including stimulants for ADHD, narcolepsy or weight loss, nasal, oral, and ophthalmic decongestants and cold products, and respiratory sympathomimetics (e.g., beta agonist drugs). Some local anesthetics also contain a sympathomimetic (e.g., epinephrine). In general, medicines containing sympathomimetic agents should not be used concurrently with MAOIs or within 14 days before or after their use.
Morphine: (Moderate) If concomitant use of morphine and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Morphine; Naltrexone: (Moderate) If concomitant use of morphine and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Nabilone: (Moderate) Concurrent use of nabilone with sympathomimetics (e.g., amphetamine or cocaine) may result in additive hypertension, tachycardia, and possibly cardiotoxicity. In a study of 7 adult males, combinations of cocaine (IV) and smoked marijuana (1 g marijuana cigarette, 0 to 2.7% delta-9-THC) increased the heart rate above levels seen with either agent alone, with increases reaching a plateau at 50 bpm.
Nadolol: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug.
Nalbuphine: (Moderate) If concomitant use of nalbuphine and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Naratriptan: (Major) Initiate with lower doses and monitor patients for signs and symptoms of serotonin syndrome, particularly during treatment initiation or dosage increase, during concomitant lisdexamfetamine and serotonin-receptor agonist use. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk of serotonin syndrome.
Nateglinide: (Moderate) Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when pseudoephedrine, phenylephrine, and other sympathomimetics are administered to patients taking antidiabetic agents. Epinephrine and other sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Nebivolol: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug.
Nebivolol; Valsartan: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug. (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised.
Nefazodone: (Moderate) Serotonin syndrome may occur during coadministration of serotonergic drugs such as amphetamines and nefazodone. At high doses, amphetamines can increase serotonin release, as well as act as serotonin agonists. Monitor for the emergence of serotonin syndrome particularly after a dose increase or the addition of other serotonergic medications to an existing regimen. Discontinue all serotonergic agents if serotonin syndrome occurs and implement appropriate medical management.
Nicardipine: (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
NIFEdipine: (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Nimodipine: (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Nirmatrelvir; Ritonavir: (Moderate) Warn patients that the risk of amphetamine toxicity may be increased during concurrent use of ritonavir, a strong CYP2D6 inhibitor. Amphetamines are partially metabolized by CYP2D6 and have serotonergic properties; inhibition of amphetamine metabolism may increase the risk of serotonin syndrome or other toxicity. If serotonin syndrome occurs, both the amphetamine and CYP2D6 inhibitor should be discontinued and appropriate medical treatment should be implemented.
Nisoldipine: (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Nitrates: (Moderate) Sympathomimetics can antagonize the antianginal effects of nitrates, and can increase blood pressure and/or heart rate. Anginal pain may be induced when coronary insufficiency is present.
Nitroglycerin: (Moderate) Sympathomimetics can antagonize the antianginal effects of nitrates, and can increase blood pressure and/or heart rate. Anginal pain may be induced when coronary insufficiency is present.
Nitroprusside: (Moderate) Use sympathomimetic agents with caution in patients receiving therapy for hypertension. Patients should be monitored to confirm that the desired antihypertensive effect is achieved. Sympathomimetics can increase blood pressure and heart rate, and antagonize the antihypertensive effects of vasodilators when administered concomitantly. Anginal pain may be induced when coronary insufficiency is present.
Non-Ionic Contrast Media: (Major) Use of medications that lower the seizure threshold, such as lisdexamfetamine, should be discontinued at least 48 hours before myelography and should not be resumed for at least 24 hours postprocedure.
Nortriptyline: (Moderate) Monitor blood pressure, heart rate, and for signs and symptoms of serotonin syndrome, particularly during treatment initiation and dosage increase, during concomitant amphetamine and tricyclic antidepressant use. Adjust doses or use alternative therapy based on clinical response. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk for potentiation of cardiovascular effects and serotonin syndrome. Amphetamines may enhance the activity of tricyclic antidepressants causing significant and sustained increases in amphetamine concentrations in the brain.
Olanzapine; Fluoxetine: (Moderate) Monitor for signs and symptoms of serotonin syndrome, particularly during treatment initiation and dosage increase, during concomitant amphetamine and fluoxetine use. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk for serotonin syndrome.
Oliceridine: (Moderate) If concomitant use of oliceridine and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Olmesartan: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised.
Olmesartan; Amlodipine; Hydrochlorothiazide, HCTZ: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised. (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Olmesartan; Hydrochlorothiazide, HCTZ: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised.
Omeprazole; Sodium Bicarbonate: (Moderate) Monitor for an increase in the incidence and severity of amphetamine-related adverse effects during concomitant use of urinary alkalinizing agents. Increasing urine pH may increase amphetamine exposure by reducing urinary excretion of amphetamine. A urine pH more than 7.5 has been observed to increase the half-life of amphetamine from 8 to 10.5 hours to 16 to 31 hours when compared to a pH less than 6. Additionally, a urine pH more than 8 has been observed to reduce the amount of amphetamine excreted in the urine over 16 hours to less than 3% of the original dose; a 5-fold reduction compared to controls.
Oxycodone: (Moderate) If concomitant use of oxycodone and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Oxymorphone: (Moderate) If concomitant use of oxymorphone and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Ozanimod: (Major) Avoid concurrent use of ozanimod and amphetamines when possible as this combination may increase the risk for serious adverse reactions such as hypertensive crisis. If use is necessary, monitor for hypertension. Amphetamines may increase blood pressure by increasing norepinephrine and serotonin concentrations and monoamine oxidase inhibitors (MAOIs) are known to potentiate these effects. An active metabolite of ozanimod inhibits MAO-B in vitro. Sympathomimetics are contraindicated for use with non-selective MAOIs, however the risk for hypertensive reactions may be lower with selective MAO-B inhibitors.
Paroxetine: (Moderate) Monitor for signs and symptoms of serotonin syndrome, particularly during treatment initiation and dosage increase, during concomitant amphetamine and paroxetine use. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk for serotonin syndrome.
Pentobarbital: (Major) Patients who are taking anticonvulsants for epilepsy/seizure control should use lisdexamfetamine with caution. Amphetamines may decrease the seizure threshold and may increase the risk of seizures. If seizures occur, amphetamine discontinuation may be necessary.
Perindopril: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised.
Perindopril; Amlodipine: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised. (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Perphenazine; Amitriptyline: (Moderate) Monitor blood pressure, heart rate, and for signs and symptoms of serotonin syndrome, particularly during treatment initiation and dosage increase, during concomitant amphetamine and tricyclic antidepressant use. Adjust doses or use alternative therapy based on clinical response. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk for potentiation of cardiovascular effects and serotonin syndrome. Amphetamines may enhance the activity of tricyclic antidepressants causing significant and sustained increases in amphetamine concentrations in the brain.
Phenelzine: (Contraindicated) In general, sympathomimetics should be avoided in patients receiving MAOIs due to an increased risk of hypertensive crisis. This applies to sympathomimetics including stimulants for ADHD, narcolepsy or weight loss, nasal, oral, and ophthalmic decongestants and cold products, and respiratory sympathomimetics (e.g., beta agonist drugs). Some local anesthetics also contain a sympathomimetic (e.g., epinephrine). In general, medicines containing sympathomimetic agents should not be used concurrently with MAOIs or within 14 days before or after their use.
Phenobarbital: (Major) Patients who are taking anticonvulsants for epilepsy/seizure control should use lisdexamfetamine with caution. Amphetamines may decrease the seizure threshold and may increase the risk of seizures. If seizures occur, amphetamine discontinuation may be necessary. Additionally, amphetamines may delay the intestinal absorption of phenobarbital, although the extent of absorption is not known to be affected.
Phenobarbital; Hyoscyamine; Atropine; Scopolamine: (Major) Patients who are taking anticonvulsants for epilepsy/seizure control should use lisdexamfetamine with caution. Amphetamines may decrease the seizure threshold and may increase the risk of seizures. If seizures occur, amphetamine discontinuation may be necessary. Additionally, amphetamines may delay the intestinal absorption of phenobarbital, although the extent of absorption is not known to be affected.
Phenoxybenzamine: (Major) Amphetamines increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents. Due to the risk of unopposed alpha-adrenergic activity, amphetamines should be used cautiously with beta-blockers. Increased blood pressure, bradycardia, or heart block may occur due to excessive alpha-adrenergic receptor stimulation. In particular, amphetamines can inhibit the antihypertensive response to guanadrel, an adrenergic antagonist that causes depletion of norepinephrine in the synapse. Close monitoring of blood pressure or the selection of alternative therapeutic agents may be needed.
Phentermine: (Major) Avoid coadministration of phentermine and other medications for weight loss, such as amphetamines. The safety and efficacy of combination therapy have not been established.
Phentermine; Topiramate: (Major) Avoid coadministration of phentermine and other medications for weight loss, such as amphetamines. The safety and efficacy of combination therapy have not been established. (Moderate) Monitor for amphetamine-related adverse events if coadministered with topiramate. Concurrent use may increase amphetamine concentrations, resulting in potentiation of the action of amphetamines.
Phentolamine: (Major) Amphetamines increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents. Due to the risk of unopposed alpha-adrenergic activity, amphetamines should be used cautiously with beta-blockers. Increased blood pressure, bradycardia, or heart block may occur due to excessive alpha-adrenergic receptor stimulation. Phentolamine may decrease, but not completely reverse, the pressor response of amphetamine overdose. Close monitoring of blood pressure or the selection of alternative therapeutic agents may be needed.
Phenytoin: (Moderate) Monitor for decreased efficacy of phenytoin during coadministration with lisdexamfetamine. Amphetamines may delay the intestinal absorption of phenytoin.
Pindolol: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug.
Pioglitazone: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking thiazolidinediones. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Pioglitazone; Glimepiride: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking sulfonylureas. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes. (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking thiazolidinediones. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Pioglitazone; Metformin: (Moderate) Monitor for loss of glycemic control when amphetamines are administered to patients taking antidiabetic agents. Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Sympathomimetic agents, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking thiazolidinediones. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Potassium Bicarbonate: (Major) Urinary alkalinizers, such as potassium citrate, diminish the urinary excretion of amphetamines. These drug combinations should be avoided, especially in amphetamine overdose situations. (Moderate) Monitor for an increase in the incidence and severity of amphetamine-related adverse effects during concomitant use of urinary alkalinizing agents. Increasing urine pH may increase amphetamine exposure by reducing urinary excretion of amphetamine. A urine pH more than 7.5 has been observed to increase the half-life of amphetamine from 8 to 10.5 hours to 16 to 31 hours when compared to a pH less than 6. Additionally, a urine pH more than 8 has been observed to reduce the amount of amphetamine excreted in the urine over 16 hours to less than 3% of the original dose; a 5-fold reduction compared to controls.
Potassium Chloride: (Major) Urinary alkalinizers, such as potassium citrate, diminish the urinary excretion of amphetamines. These drug combinations should be avoided, especially in amphetamine overdose situations.
Potassium Citrate: (Major) Urinary alkalinizers, such as potassium citrate, diminish the urinary excretion of amphetamines. These drug combinations should be avoided, especially in amphetamine overdose situations. (Moderate) Monitor for an increase in the incidence and severity of amphetamine-related adverse effects during concomitant use of urinary alkalinizing agents. Increasing urine pH may increase amphetamine exposure by reducing urinary excretion of amphetamine. A urine pH more than 7.5 has been observed to increase the half-life of amphetamine from 8 to 10.5 hours to 16 to 31 hours when compared to a pH less than 6. Additionally, a urine pH more than 8 has been observed to reduce the amount of amphetamine excreted in the urine over 16 hours to less than 3% of the original dose; a 5-fold reduction compared to controls.
Potassium Citrate; Citric Acid: (Major) Urinary alkalinizers, such as potassium citrate, diminish the urinary excretion of amphetamines. These drug combinations should be avoided, especially in amphetamine overdose situations. (Moderate) Monitor for an increase in the incidence and severity of amphetamine-related adverse effects during concomitant use of urinary alkalinizing agents. Increasing urine pH may increase amphetamine exposure by reducing urinary excretion of amphetamine. A urine pH more than 7.5 has been observed to increase the half-life of amphetamine from 8 to 10.5 hours to 16 to 31 hours when compared to a pH less than 6. Additionally, a urine pH more than 8 has been observed to reduce the amount of amphetamine excreted in the urine over 16 hours to less than 3% of the original dose; a 5-fold reduction compared to controls.
Potassium-sparing diuretics: (Minor) Lisedexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like potassium-sparing diuretics. Close monitoring of blood pressure is advised.
Pramlintide: (Moderate) Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when pseudoephedrine, phenylephrine, and other sympathomimetics are administered to patients taking antidiabetic agents. Epinephrine and other sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Prazosin: (Minor) Close monitoring of blood pressure or the selection of alternative therapeutic agents may be needed in patients receiving prazosin and amphetamines. Amphetamines increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as prazosin.
Prilocaine; Epinephrine: (Moderate) Monitor blood pressure and heart rate during concomitant amphetamine and epinephrine use. Amphetamines may potentiate the pressor effects of epinephrine.
Primidone: (Major) Patients who are taking anticonvulsants for epilepsy/seizure control should use lisdexamfetamine with caution. Amphetamines may decrease the seizure threshold and may increase the risk of seizures. If seizures occur, amphetamine discontinuation may be necessary.
Procarbazine: (Major) Because procarbazine exhibits some monoamine oxidase inhibitory (MAOI) activity, sympathomimetic drugs should be avoided. As with MAOIs, the use of a sympathomimetic drug with procarbazine may precipitate hypertensive crisis or other serious side effects. In the presence of MAOIs, drugs that cause release of norepinephrine induce severe cardiovascular and cerebrovascular responses. In general, do not use a sympathomimetic drug unless clinically necessary (e.g., medical emergencies, agents like dopamine) within the 14 days prior, during or 14 days after procarbazine therapy. If use is necessary within 2 weeks of the MAOI drug, in general the initial dose of the sympathomimetic agent must be greatly reduced. Patients should be counseled to avoid non-prescription (OTC) decongestants and other drug products, weight loss products, and energy supplements that contain sympathomimetic agents.
Propofol: (Moderate) Closely monitor vital signs when general anesthetics and lisdexamfetamine are coadministered; consider dose adjustment individualized to the patient's clinical situation. Lisdexamfetamine may enhance the sympathomimetic effects of general anesthetics.
Propranolol: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug.
Protriptyline: (Moderate) Monitor blood pressure, heart rate, and for signs and symptoms of serotonin syndrome, particularly during treatment initiation and dosage increase, during concomitant amphetamine and tricyclic antidepressant use. Adjust doses or use alternative therapy based on clinical response. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk for potentiation of cardiovascular effects and serotonin syndrome. Amphetamines may enhance the activity of tricyclic antidepressants causing significant and sustained increases in amphetamine concentrations in the brain.
Quinapril: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised.
Quinapril; Hydrochlorothiazide, HCTZ: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised.
Quinidine: (Moderate) Warn patients that the risk of amphetamine toxicity may be increased during concurrent use of quinidine, a strong CYP2D6 inhibitor. Amphetamines are partially metabolized by CYP2D6 and have serotonergic properties; inhibition of amphetamine metabolism may increase the risk of serotonin syndrome or other toxicity. If serotonin syndrome occurs, both the amphetamine and CYP2D6 inhibitor should be discontinued and appropriate medical treatment should be implemented.
Racepinephrine: (Major) Racepinephrine is a sympathomimetic drug with agonist actions at both the alpha and beta receptors. Patients using racepinephrine inhalation are advised to avoid other non-prescription products containing sympathomimetics since additive adverse effects on the cardiovascular and nervous system are possible, some which may be undesirable. Side effects such as nausea, tremor, nervousness, difficulty with sleep, and increased heart rate or blood pressure may be additive. Patients should avoid use of non-prescription decongestants, such as phenylephrine and pseudoephedrine, while using racepinephrine inhalations. Patients should avoid dietary supplements containing ingredients that are reported or claimed to have a stimulant or weight-loss effect, such as ephedrine and ephedra, Ma huang, and phenylpropanolamine. Patients taking prescription sympathomimetic or stimulant medications (including amphetamines, methylphenidate, dexmethylphenidate, isometheptane, epinephrine) should seek health care professional advice prior to the use of racepinephrine inhalations; consider therapeutic alternatives to racepinephrine for these patients.
Ramipril: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised.
Rasagiline: (Moderate) The concomitant use of rasagiline and sympathomimetics was not allowed in clinical studies; therefore, caution is advised during concurrent use of rasagiline and sympathomimetics including stimulants for ADHD and weight loss, non-prescription nasal, oral, and ophthalmic decongestants, and weight loss dietary supplements containing Ephedra. Although sympathomimetics are contraindicated for use with other non-selective monoamine oxidase inhibitors (MAOIs), hypertensive reactions generally are not expected to occur during concurrent use with rasagiline because of the selective monoamine oxidase-B (MAO-B) inhibition of rasagiline at manufacturer recommended doses. One case of elevated blood pressure has been reported in a patient during concurrent use of the recommended dose of rasagiline and ophthalmic tetrahydrozoline. One case of hypertensive crisis has been reported in a patient taking the recommended dose of another MAO-B inhibitor, selegiline, in combination with ephedrine. It should be noted that the MAO-B selectivity of rasagiline decreases in a dose-related manner as increases are made above the recommended daily dose and interactions with sympathomimetics may be more likely to occur at these higher doses.
Regular Insulin: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking insulin. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Regular Insulin; Isophane Insulin (NPH): (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking insulin. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Remifentanil: (Moderate) Because of the potential risk and severity of serotonin syndrome, caution should be observed when administering remifentanil with amphetamines. Inform patients taking this combination of the possible increased risks and monitor for the emergence of serotonin syndrome particularly during treatment initiation and dose adjustment. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs.
Repaglinide: (Moderate) Sympathomimetic agents and adrenergic agonists tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when pseudoephedrine, phenylephrine, and other sympathomimetics are administered to patients taking antidiabetic agents. Epinephrine and other sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Riociguat: (Major) Avoid use of sympathomimetic agents with riociguat. Sympathomimetics counteract the medications used to stabilize pulmonary hypertension, including riociguat. Sympathomimetics can increase blood pressure, increase heart rate, and may cause vasoconstriction resulting in chest pain and shortness of breath in these patients. Patients should be advised to avoid amphetamine drugs, decongestants (including nasal decongestants) and sympathomimetic anorexiants for weight loss, including dietary supplements. Intravenous vasopressors may be used in the emergency management of pulmonary hypertension patients when needed, but hemodynamic monitoring and careful monitoring of cardiac status are needed to avoid ischemia and other complications.
Ritonavir: (Moderate) Warn patients that the risk of amphetamine toxicity may be increased during concurrent use of ritonavir, a strong CYP2D6 inhibitor. Amphetamines are partially metabolized by CYP2D6 and have serotonergic properties; inhibition of amphetamine metabolism may increase the risk of serotonin syndrome or other toxicity. If serotonin syndrome occurs, both the amphetamine and CYP2D6 inhibitor should be discontinued and appropriate medical treatment should be implemented.
Rizatriptan: (Major) Initiate with lower doses and monitor patients for signs and symptoms of serotonin syndrome, particularly during treatment initiation or dosage increase, during concomitant lisdexamfetamine and serotonin-receptor agonist use. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk of serotonin syndrome.
Rosiglitazone: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking thiazolidinediones. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Sacubitril; Valsartan: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised.
Safinamide: (Contraindicated) Safinamide, a selective monoamine oxidase-B inhibitor, is contraindicated for use with amphetamines due to the risk of serotonin syndrome or hypertensive crisis. The manufacturer of safinamide recommends that a period of at least 14 days elapse between the discontinuation of safinamide and the initiation of serotonergic agents. Hypertensive crisis has been reported in patients taking recommended doses of selective MAO-B inhibitors and sympathomimetic medications, such as amphetamines. Safinamide can cause hypertension or exacerbate existing hypertension, particularly at daily dosages exceeding those recommended by the manufacturer.
Salmeterol: (Moderate) Monitor blood pressure and heart rate during concomitant salmeterol and lisdexamfetamine use. Concomitant use may potentiate sympathetic effects.
Saxagliptin: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking dipeptidyl peptidase-4 (DPP-4) inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Selegiline: (Contraindicated) The product labels for amphetamines contraindicate use with monoamine oxidase inhibitors (MAOIs), including selegiline, due to the risk of hypertensive crisis or serotonin syndrome. Amphetamines should not be used concurrently with MAOIs or within 14 days before or after their use. The manufacturers of selegiline products recommend caution and monitoring of blood pressure during concurrent use with sympathomimetics.
Selexipag: (Major) Avoid use of sympathomimetic agents with selexipag. Sympathomimetics counteract the medications used to stabilize pulmonary hypertension, including selexipag. Sympathomimetics can increase blood pressure, increase heart rate, and may cause vasoconstriction resulting in chest pain and shortness of breath in these patients. Patients should be advised to avoid amphetamine drugs, decongestants (including nasal decongestants) and sympathomimetic anorexiants for weight loss, including dietary supplements. Intravenous vasopressors may be used in the emergency management of pulmonary hypertension patients when needed, but hemodynamic monitoring and careful monitoring of cardiac status are needed to avoid ischemia and other complications.
Semaglutide: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking incretin mimetics. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Serotonin norepinephrine reuptake inhibitors: (Major) Initiate with lower doses and monitor patients for signs and symptoms of serotonin syndrome, particularly during treatment initiation or dosage increase, during concomitant lisdexamfetamine and serotonin norepinephrine reuptake inhibitor use. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk of serotonin syndrome.
Serotonin-Receptor Agonists: (Major) Initiate with lower doses and monitor patients for signs and symptoms of serotonin syndrome, particularly during treatment initiation or dosage increase, during concomitant lisdexamfetamine and serotonin-receptor agonist use. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk of serotonin syndrome.
Sertraline: (Moderate) Coadministration of selective serotonin reuptake inhibitors (SSRIs) like sertraline with amphetamines may increase the risk of serotonin syndrome. At high doses, amphetamines can increase serotonin release and act as serotonin agonists. Inform patients taking this combination of the possible increased risk and monitor for the emergence of serotonin syndrome, particularly during treatment initiation and dose increases. If serotonin syndrome occurs, serotonergic drugs should be discontinued and appropriate medical treatment should be initiated.
Sevoflurane: (Moderate) Closely monitor vital signs when general anesthetics and lisdexamfetamine are coadministered; consider dose adjustment individualized to the patient's clinical situation. Lisdexamfetamine may enhance the sympathomimetic effects of general anesthetics.
SGLT2 Inhibitors: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking SGLT2 inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Sitagliptin: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking dipeptidyl peptidase-4 (DPP-4) inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Sodium Acetate: (Moderate) Monitor for an increase in the incidence and severity of amphetamine-related adverse effects during concomitant use of urinary alkalinizing agents. Increasing urine pH may increase amphetamine exposure by reducing urinary excretion of amphetamine. A urine pH more than 7.5 has been observed to increase the half-life of amphetamine from 8 to 10.5 hours to 16 to 31 hours when compared to a pH less than 6. Additionally, a urine pH more than 8 has been observed to reduce the amount of amphetamine excreted in the urine over 16 hours to less than 3% of the original dose; a 5-fold reduction compared to controls.
Sodium Bicarbonate: (Moderate) Monitor for an increase in the incidence and severity of amphetamine-related adverse effects during concomitant use of urinary alkalinizing agents. Increasing urine pH may increase amphetamine exposure by reducing urinary excretion of amphetamine. A urine pH more than 7.5 has been observed to increase the half-life of amphetamine from 8 to 10.5 hours to 16 to 31 hours when compared to a pH less than 6. Additionally, a urine pH more than 8 has been observed to reduce the amount of amphetamine excreted in the urine over 16 hours to less than 3% of the original dose; a 5-fold reduction compared to controls.
Sodium Citrate; Citric Acid: (Moderate) Monitor for an increase in the incidence and severity of amphetamine-related adverse effects during concomitant use of urinary alkalinizing agents. Increasing urine pH may increase amphetamine exposure by reducing urinary excretion of amphetamine. A urine pH more than 7.5 has been observed to increase the half-life of amphetamine from 8 to 10.5 hours to 16 to 31 hours when compared to a pH less than 6. Additionally, a urine pH more than 8 has been observed to reduce the amount of amphetamine excreted in the urine over 16 hours to less than 3% of the original dose; a 5-fold reduction compared to controls.
Sodium Lactate: (Moderate) Monitor for an increase in the incidence and severity of amphetamine-related adverse effects during concomitant use of urinary alkalinizing agents. Increasing urine pH may increase amphetamine exposure by reducing urinary excretion of amphetamine. A urine pH more than 7.5 has been observed to increase the half-life of amphetamine from 8 to 10.5 hours to 16 to 31 hours when compared to a pH less than 6. Additionally, a urine pH more than 8 has been observed to reduce the amount of amphetamine excreted in the urine over 16 hours to less than 3% of the original dose; a 5-fold reduction compared to controls.
Sodium Oxybate: (Moderate) Sodium oxybate has the potential to induce seizures; it has been speculated that this effect may be mediated through the action of sodium oxybate at GABA receptors. Although convulsant effects occur primarily at high dosages, sodium oxybate should be used cautiously with psychostimulants that are known to lower seizure threshold such as the amphetamines. Note that CNS stimulants, including the amphetamines, methylphenidate, and modafinil are frequently used in the treatment of narcolepsy, and clinical trials involving the use of psychostimulants with sodium oxybate have not found the combinations to be unsafe. Pharmacodynamic interactions cannot be ruled out, however.
Solriamfetol: (Moderate) Monitor blood pressure and heart rate during coadministration of solriamfetol, a norepinephrine and dopamine reuptake inhibitor, and amphetamines, which are CNS stimulants. Concurrent use of solriamfetol and other medications that increase blood pressure and/or heart rate may increase the risk of such effects. Coadministration of solriamfetol with other drugs that increase blood pressure or heart rate has not been evaluated.
Sotagliflozin: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking SGLT2 inhibitors. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Sotalol: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug.
Spironolactone: (Minor) Lisedexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like potassium-sparing diuretics. Close monitoring of blood pressure is advised.
Spironolactone; Hydrochlorothiazide, HCTZ: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Lisedexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like potassium-sparing diuretics. Close monitoring of blood pressure is advised.
St. John's Wort, Hypericum perforatum: (Moderate) Coadministration of St. John's Wort with amphetamines may increase the risk of serotonin syndrome. Serotonin syndrome has been reported with both drugs when taken alone, but especially when coadministered with other serotonergic agents. Inform patients taking this combination of the possible increased risk and monitor for the emergence of serotonin syndrome. Discontinue serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs.
Succinimides: (Major) Patients who are taking anticonvulsants for epilepsy/seizure control should use lisdexamfetamine with caution. Amphetamines may decrease the seizure threshold and may increase the risk of seizures. If seizures occur, amphetamine discontinuation may be necessary. Additionally, amphetamines may delay the intestinal absorption of ethosuximide. The extent of absorption of ethosuximide is not known to be affected.
Sufentanil: (Moderate) Because of the potential risk and severity of serotonin syndrome, caution should be observed when administering sufentanil with amphetamines. Inform patients taking this combination of the possible increased risks and monitor for the emergence of serotonin syndrome particularly during treatment initiation and dose adjustment. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs.
Sulfacetamide; Sulfur: (Moderate) Monitor for an increase in the incidence and severity of amphetamine-related adverse effects during concomitant use of urinary alkalinizing agents. Increasing urine pH may increase amphetamine exposure by reducing urinary excretion of amphetamine. A urine pH more than 7.5 has been observed to increase the half-life of amphetamine from 8 to 10.5 hours to 16 to 31 hours when compared to a pH less than 6. Additionally, a urine pH more than 8 has been observed to reduce the amount of amphetamine excreted in the urine over 16 hours to less than 3% of the original dose; a 5-fold reduction compared to controls.
Sulfonylureas: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking sulfonylureas. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Sumatriptan: (Major) Initiate with lower doses and monitor patients for signs and symptoms of serotonin syndrome, particularly during treatment initiation or dosage increase, during concomitant lisdexamfetamine and serotonin-receptor agonist use. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk of serotonin syndrome.
Sumatriptan; Naproxen: (Major) Initiate with lower doses and monitor patients for signs and symptoms of serotonin syndrome, particularly during treatment initiation or dosage increase, during concomitant lisdexamfetamine and serotonin-receptor agonist use. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk of serotonin syndrome.
Tapentadol: (Moderate) If concomitant use of tapentadol and amphetamines is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Tedizolid: (Minor) Theoretically, drugs that possess MAO-inhibiting activity, such as tedizolid, can prolong and intensify the cardiac stimulation and vasopressor effects of amphetamines. Serious CNS reactions, such as serotonin syndrome, have been reported during the concurrent use of linezolid, which is structurally similar to tedizolid, and psychiatric medications that enhance central serotonergic activity; therefore, caution is warranted with concomitant use of other agents with serotonergic activity, including amphetamines.
Telmisartan: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised.
Telmisartan; Amlodipine: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised. (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Telmisartan; Hydrochlorothiazide, HCTZ: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised.
Terazosin: (Minor) Close monitoring of blood pressure or the selection of alternative therapeutic agents may be needed in patients receiving terazosin and amphetamines. Amphetamines increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as terazosin.
Theophylline, Aminophylline: (Moderate) Concurrent administration of theophylline or aminophylline with some sympathomimetics can produce excessive stimulation and effects such as nervousness, irritability, or insomnia. Seizures or cardiac arrhythmias are also possible. (Moderate) Concurrent administration of theophylline or aminophylline with sympathomimetics can produce excessive stimulation manifested by skeletal muscle activity, agitation, and hyperactivity.
Thiazide diuretics: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH.
Thiazolidinediones: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking thiazolidinediones. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Thiothixene: (Major) Concurrent use of antipsychotics, such as thiothixene, and amphetamines should generally be avoided. Antipsychotics and amphetamines may interact pharmacodynamically to diminish the therapeutic effects of either agent through opposing effects on dopamine. Amphetamines are thought to block central dopamine reuptake, which has the potential to exacerbate psychosis, and antipsychotics, which are central dopamine antagonists, may diminish the effectiveness of amphetamines.
Thyroid hormones: (Moderate) Monitor hemodynamic parameters during concomitant sympathomimetic agent and thyroid hormone use; dosage adjustments may be necessary. Concomitant use may increase the effects of sympathomimetics or thyroid hormone.
Timolol: (Moderate) Monitor hemodynamic parameters and for loss of efficacy during concomitant sympathomimetic agent and beta-blocker use; dosage adjustments may be necessary. Concomitant use may antagonize the cardiovascular effects of either drug.
Tipranavir: (Moderate) Warn patients that there are potentially serious drug interactions between tipranavir and prescription amphetamine therapy or illicit amphetamine use. The risk of amphetamine toxicity may be increased during concurrent use of potent CYP2D6 inhibitors such as tipranavir. Amphetamines are partially metabolized by CYP2D6 and have serotonergic properties; inhibition of amphetamine metabolism may increase the risk of serotonin syndrome or other toxicity. If serotonin syndrome occurs, discontinue both the amphetamine and CYP2D6 inhibitor and initiate appropriate medical treatment.
Tirzepatide: (Moderate) Sympathomimetic agents tend to increase blood glucose concentrations when administered systemically. Monitor for loss of glycemic control when sympathomimetics are administered to patients taking incretin mimetics. Sympathomimetics, through stimulation of alpha- and beta- receptors, increase hepatic glucose production and glycogenolysis and inhibit insulin secretion. Also, adrenergic medications may decrease glucose uptake by muscle cells. For treatment of cold symptoms, nasal decongestants may be preferable for short term, limited use (1 to 3 days) as an alternative to systemic decongestants in patients taking medications for diabetes.
Topiramate: (Moderate) Monitor for amphetamine-related adverse events if coadministered with topiramate. Concurrent use may increase amphetamine concentrations, resulting in potentiation of the action of amphetamines.
Torsemide: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as loop diuretics. Close monitoring of blood pressure is advised.
Tramadol: (Moderate) If concomitant use of tramadol and lisdexamfetamine is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Tramadol; Acetaminophen: (Moderate) If concomitant use of tramadol and lisdexamfetamine is warranted, monitor patients for the emergence of serotonin syndrome. Discontinue all serotonergic agents and initiate symptomatic treatment if serotonin syndrome occurs. The concomitant use of opioids with other drugs that affect the serotonergic neurotransmitter system has resulted in serotonin syndrome.
Trandolapril: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised.
Trandolapril; Verapamil: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like angiotensin-converting enzyme inhibitors (ACE inhibitors). Close monitoring of blood pressure is advised. (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Tranylcypromine: (Contraindicated) In general, sympathomimetics should be avoided in patients receiving MAOIs due to an increased risk of hypertensive crisis. This applies to sympathomimetics including stimulants for ADHD, narcolepsy or weight loss, nasal, oral, and ophthalmic decongestants and cold products, and respiratory sympathomimetics (e.g., beta agonist drugs). Some local anesthetics also contain a sympathomimetic (e.g., epinephrine). In general, medicines containing sympathomimetic agents should not be used concurrently with MAOIs or within 14 days before or after their use.
Trazodone: (Moderate) Coadministration of trazodone and amphetamines may increase the risk of serotonin syndrome. Serotonin syndrome has been reported with both drugs when taken alone, but especially when coadministered with other serotonergic agents. The MAOI activity of amphetamines may also be of concern with trazodone. Inform patients taking this combination of the possible increased risk and monitor for the emergence of serotonin syndrome. Serotonergic agents should be discontinued if serotonin syndrome occurs and supportive symptomatic treatment should be initiated.
Treprostinil: (Major) Avoid use of sympathomimetic agents with treprostinil. Sympathomimetics counteract the medications used to stabilize pulmonary hypertension, including treprostinil. Sympathomimetics can increase blood pressure, increase heart rate, and may cause vasoconstriction resulting in chest pain and shortness of breath in these patients. Patients should be advised to avoid amphetamine drugs, decongestants (including nasal decongestants) and sympathomimetic anorexiants for weight loss, including dietary supplements. Intravenous vasopressors may be used in the emergency management of pulmonary hypertension patients when needed, but hemodynamic monitoring and careful monitoring of cardiac status are needed to avoid ischemia and other complications.
Triamterene: (Minor) Lisedexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like potassium-sparing diuretics. Close monitoring of blood pressure is advised.
Triamterene; Hydrochlorothiazide, HCTZ: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Lisedexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like potassium-sparing diuretics. Close monitoring of blood pressure is advised.
Tricyclic antidepressants: (Moderate) Monitor blood pressure, heart rate, and for signs and symptoms of serotonin syndrome, particularly during treatment initiation and dosage increase, during concomitant amphetamine and tricyclic antidepressant use. Adjust doses or use alternative therapy based on clinical response. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk for potentiation of cardiovascular effects and serotonin syndrome. Amphetamines may enhance the activity of tricyclic antidepressants causing significant and sustained increases in amphetamine concentrations in the brain.
Trimipramine: (Moderate) Monitor blood pressure, heart rate, and for signs and symptoms of serotonin syndrome, particularly during treatment initiation and dosage increase, during concomitant amphetamine and tricyclic antidepressant use. Adjust doses or use alternative therapy based on clinical response. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk for potentiation of cardiovascular effects and serotonin syndrome. Amphetamines may enhance the activity of tricyclic antidepressants causing significant and sustained increases in amphetamine concentrations in the brain.
Tromethamine: (Moderate) Monitor for an increase in the incidence and severity of amphetamine-related adverse effects during concomitant use of urinary alkalinizing agents. Increasing urine pH may increase amphetamine exposure by reducing urinary excretion of amphetamine. A urine pH more than 7.5 has been observed to increase the half-life of amphetamine from 8 to 10.5 hours to 16 to 31 hours when compared to a pH less than 6. Additionally, a urine pH more than 8 has been observed to reduce the amount of amphetamine excreted in the urine over 16 hours to less than 3% of the original dose; a 5-fold reduction compared to controls.
Tryptophan, 5-Hydroxytryptophan: (Major) Because of the potential risk and severity of serotonin syndrome, caution should be observed when administering amphetamines with other drugs that have serotonergic properties such as tryptophan. Serotonin syndrome is characterized by the rapid development of hyperthermia, hypertension, myoclonus, rigidity, autonomic instability, mental status changes (e.g., delirium or coma), and in rare cases, death. Further study is needed to fully elucidate the severity and frequency of adverse effects that may occur from concomitant administration of amphetamines and tryptophan. Patients receiving tryptophan and an amphetamine should be monitored for the emergence of serotonin syndrome, particularly during treatment initiation and during dosage increases. The amphetamine and tryptophan should be discontinued if serotonin syndrome occurs and supportive symptomatic treatment should be initiated.
Umeclidinium; Vilanterol: (Moderate) Administer sympathomimetics with caution with beta-agonists such as vilanterol. The cardiovascular effects of beta-2 agonists may be potentiated by concomitant use. Monitor the patient for tremors, nervousness, increased heart rate, or other additive side effects.
Valsartan: (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised.
Valsartan; Hydrochlorothiazide, HCTZ: (Minor) Amphetamines may counteract the activity of some antihypertensive agents, such as thiazide diuretics. Close monitoring of blood pressure is advised. Thiazide diuretics may also increase and prolong the actions of amphetamines by increasing the urinary pH. (Minor) Lisdexamfetamine may increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, such as angiotensin II receptor antagonists. Close monitoring of blood pressure is advised.
Vasodilators: (Moderate) Use sympathomimetic agents with caution in patients receiving therapy for hypertension. Patients should be monitored to confirm that the desired antihypertensive effect is achieved. Sympathomimetics can increase blood pressure and heart rate, and antagonize the antihypertensive effects of vasodilators when administered concomitantly. Anginal pain may be induced when coronary insufficiency is present.
Venlafaxine: (Major) Initiate with lower doses and monitor patients for signs and symptoms of serotonin syndrome, particularly during treatment initiation or dosage increase, during concomitant lisdexamfetamine and serotonin norepinephrine reuptake inhibitor use. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk of serotonin syndrome.
Verapamil: (Minor) Lisdexamfetamine might increase both systolic and diastolic blood pressure and may counteract the activity of some antihypertensive agents, like calcium-channel blockers. Close monitoring of blood pressure is advised.
Vilazodone: (Moderate) Serotonin syndrome may occur during coadministration of serotonergic drugs such as amphetamines and vilazodone. At high doses, amphetamines can increase serotonin release and act as serotonin agonists. Monitor for the emergence of serotonin syndrome particularly after a dose increase or the addition of other serotonergic medications. Discontinue all serotonergic agents if serotonin syndrome occurs and implement appropriate medical management.
Vortioxetine: (Moderate) Serotonin syndrome may occur during coadministration of serotonergic drugs such as amphetamines and vortioxetine. At high doses, amphetamines can increase serotonin release and act as serotonin agonists. Monitor for the emergence of serotonin syndrome particularly after a dose increase or the addition of other serotonergic medications to an existing regimen. Discontinue all serotonergic agents if serotonin syndrome occurs and implement appropriate medical management.
Ziprasidone: (Minor) Serotonin syndrome has been reported during the combined use of amphetamine stimulants and other medications with serotonergic properties. Serotonin syndrome has been reported during postmarketing use of ziprasidone; however, a causal relationship has not been established.
Zolmitriptan: (Major) Initiate with lower doses and monitor patients for signs and symptoms of serotonin syndrome, particularly during treatment initiation or dosage increase, during concomitant lisdexamfetamine and serotonin-receptor agonist use. If serotonin syndrome occurs, discontinue therapy. Concomitant use increases the risk of serotonin syndrome.
Zonisamide: (Moderate) Patients who are taking anticonvulsants for epilepsy/seizure control should use amphetamines with caution. Amphetamines may decrease the seizure threshold and increase the risk of seizures. If seizures occur, amphetamine discontinuation may be necessary.
Amphetamines are non-catecholamine sympathomimetic amines with CNS stimulant activity. Lisdexamfetamine is a prodrug of dextroamphetamine, and in vitro data indicate that lisdexamfetamine does not bind to the sites responsible for the reuptake of norepinephrine and dopamine. The predominant mechanism of lisdexamfetamine, after its conversion to dextroamphetamine, is to stimulate the release of some biogenic amines (e.g., dopamine, norepinephrine) from storage sites in the nerve terminal and block the reuptake of these amines into the presynaptic neuron thereby increasing their availability in the extraneuronal space. Amphetamines are relatively weak serotonin reuptake inhibitors. At typical doses, amphetamines stimulate the release of norepinephrine. At higher doses, dopamine is released from its storage sites accounting for some of the behavioral changes seen with amphetamine. It is thought that the release of dopamine is responsible for the reinforcing properties of amphetamine. At still higher doses, amphetamine stimulates the release of 5-hydroxytryptamine (5-HT). It is this neurotransmitter that is thought to explain the overt psychotic behavior associated with amphetamine excess. Finally, amphetamine may act as a direct agonist on central 5-HT receptors. Thus, amphetamine is both a direct and an indirect stimulant. Indirect agonists are associated with tachyphylaxis due to the ever-decreasing supply of endogenous neurotransmitter than can be displaced from the nerve ending. Amphetamines may also inhibit monoamine oxidase (MAO), but this is a minor action. The primary sites of activity in the CNS appear to be in the cerebral cortex and the reticular activating system. Amphetamine-induced CNS stimulation produces a decreased sense of fatigue, an increase in motor activity and mental alertness, mild euphoria, and brighter spirits. These effects are believed to be due to stimulation of norepinephrine release from central noradrenergic neurons. Lithium may offset amphetamine-induced euphoria.
Actions in ADHD: There is no conclusive evidence for the mechanism(s) of action of amphetamines on the mental and behavioral characteristics of ADHD. Improved attention spans, decreased distractability, increased ability to follow directions or complete tasks, and decreased impulsivity and aggression have been noted when stimulants are prescribed for the treatment of ADHD. Current research suggests that the modulation of serotonergic pathways by the amphetamines may contribute to the calming effects in the treatment of this disorder.
Actions in Binge Eating Disorder (BED): The exact mechanism of lisdexamfetamine in the treatment of BED is not known, but is thought to involve increases in the release of norepinephrine and dopamine into the extraneuronal space by re-uptake blockade of these neurotransmitters into the presynaptic neuron. Animal data suggest that another possible mechanism is an effect at the trace amine-associated receptor 1 (TAAR1). TAAR1 is thought to regulate dopamine and moderate the response to amphetamine and other psychostimulants.
Anorectic actions: The anorectic effect of amphetamines is postulated to be secondary to CNS stimulation. In addition, it has been suggested that amphetamines decrease olfactory acuity, which may contribute to their anorexic properties. Amphetamines do not seem to alter the basal metabolic rate or nitrogen excretion. It is unknown if other CNS actions or metabolic effects may be involved in the promotion of weight loss with amphetamines. Lisdexamfetamine is not indicated for weight loss. Use of other sympathomimetic drugs for weight loss has been associated with serious cardiovascular adverse events.
Peripheral actions: In the periphery, the actions of amphetamines are believed to occur through release of norepinephrine from the adrenergic nerve terminals and by a direct stimulant action on alpha- and beta-receptors. Amphetamines increase systolic and diastolic blood pressure and cause respiratory stimulation and weak bronchodilation. Heart rate typically increases slightly with normal therapeutic doses of stimulants (about 3 to 6 bpm); however, a reflexive decrease in heart rate in response to increased blood pressure can also occur. At high doses, such as in overdoses, amphetamine and its derivatives can cause significant hypertension, tachycardia, arrhythmias, and other serious complications.
Lisdexamfetamine is an orally administered prodrug of dextroamphetamine. Conversion to dextroamphetamine and L-lysine occurs primarily in the blood due to the high hydrolytic activity of red blood cells. The cytochrome P450 (CYP450) system is not involved in the metabolism of lisdexamfetamine. Amphetamine readily crosses the blood-brain barrier. In amphetamine-dependent adults, cerebrospinal fluid (CSF) concentrations were found to be 80% that of plasma. Under normal physiologic conditions, the plasma half-life of dextroamphetamine is 10 to 12 hours in adults, while the plasma half-life of lisdexamfetamine averages less than 1 hour. The urinary elimination of amphetamines may be affected by agents that acidify or alkalinize the urinary fluids. Amphetamines are bases; therefore, urinary excretion decreases as the pH increases. Conversely, acidification of the urine speeds amphetamine elimination. Excretion is primarily via the kidney, with approximately 96% of a dose recovered in the urine. Data from the administration of lisdexamfetamine to healthy adult subjects indicates that 42% of a dose is recovered in the urine as amphetamine, 25% as hippuric acid, and 2% as lisdexamfetamine.
Affected cytochrome P450 isoenzymes and drug transporters: CYP2D6 (theoretical)
Lisdexamfetamine is a prodrug of dextroamphetamine; lisdexamfetamine is pharmacologically inactive until converted to dextroamphetamine and l-lysine, which occurs primarily via enzymatic hydrolysis. The specific enzymes involved in dextroamphetamine metabolism are not described; however, the formation of 4-hydroxy-amphetamine is known to be catalyzed by CYP2D6. Because CYP2D6 is genetically polymorphic, variations in amphetamine metabolism are a possibility. Pharmacokinetic data suggest dosage adjustment of CYP1A2, CYP2D6, CYP2C19, or CYP3A4 substrates is not necessary when lisdexamfetamine is co-administered.
-Route-Specific Pharmacokinetics
Oral Route
Oral capsules
Lisdexamfetamine capsules are readily absorbed from the GI tract after administration. Administration of a single dose of lisdexamfetamine results in a Tmax of 3.5 hours for dextroamphetamine and 1 hour for lisdexamfetamine. Administration with food does not affect the Cmax or AUC; however, the Tmax of dextroamphetamine is prolonged by about 1 hour (from 3.8 hours in a fasted state to 4.7 hours after a high fat meal or to 4.8 hours with yogurt).
Chewable tablets
After a single 60 mg dose of the chewable tablet in healthy subjects under fasting conditions, the Tmax of lisdexamfetamine and dextroamphetamine was reached in about 1 hour and 4.4 hours post dose, respectively. Compared to 60 mg of the lisdexamfetamine capsule, exposure (Cmax and AUC) to lisdexamfetamine chewable tablet was about 15% lower. The exposure (Cmax and AUC) of dextroamphetamine is similar between the chewable tablet and capsule.
-Special Populations
Renal Impairment
Exposure to lisdexamfetamine, as measured by AUC, increases as renal function declines. Dosage adjustments are recommended in patients with severe renal disease (GFR 15 to less than 30 mL/minute/1.73 m2) and end stage renal disease (GFR less than 15 mL/minute/1.73 m2). Lisdexamfetamine and dextroamphetamine are not dialyzable.
Pediatrics
Children
Weight/dose normalized exposure (AUC) and maximum concentration (Cmax) values were the same in pediatric patients ages 6 to 12 years as in adults after single doses of 30 mg to 70 mg of lisdexamfetamine. However, in children 4 to 5 years, dextroamphetamine exposure was approximately 44% higher compared to children 6 years and older. Lisdexamfetamine is a pro-drug for dextroamphetamine. The elimination half-life for dextroamphetamine is shorter in children 6 years and older (8.6 to 9.5 hours) compared to adults (10 to 11.3 hours).
Geriatric
The AUC and Cmax of dextroamphetamine, the active metabolite of the pro-drug lisdexamfetamine, is increased in geriatric adults 75 years of age and older. Although no dosage adjustments are required, dose selection should be cautious, starting at the low end of the dosing range to account for an increased likelihood of hepatic, renal, or cardiac dysfunction, concomitant diseases, or other drug therapy.
Gender Differences
No dosage adjustment is needed based on gender.