Esterified estrogens and methyltestosterone are used together in an oral preparation to treat moderate to severe vasomotor symptoms associated with menopause in patients not improved by estrogens alone. Esterified estrogens is a mixture of the sodium salts of the sulfate esters of estrogenic substances found in the urine of pregnant mares; the primary active estrogen is sodium estrone sulfate (approximately 80%), the other major component is sodium equilin sulfate (6 to 15%). Esterified estrogens may be produced from natural sources or synthesized. Methyltestosterone is structurally similar to testosterone, except it is methylated at the C-17 position, which increases the oral bioavailability of the hormone. Esterified estrogens and methyltestosterone were first marketed in products prior to the modern FDA drug approval process and are considered unapproved drugs. The FDA has required that all manufacturers of such products submit data supporting safety and effectiveness in order to remain on the market. Final status of these products with respect to FDA approval is pending; some products remain marketed.
General Administration Information
For storage information, see the specific product information within the How Supplied section.
Hazardous Drugs Classification
-NIOSH 2016 List: Group 2
-NIOSH (Draft) 2020 List: Table 1
-Observe and exercise appropriate precautions for handling, preparation, administration, and disposal of hazardous drugs.
-Use gloves to handle. Cutting, crushing, or otherwise manipulating tablets/capsules will increase exposure and require additional protective equipment. Oral liquid drugs require double chemotherapy gloves and protective gown. Eye/face and respiratory protection may be needed during preparation and administration.
Route-Specific Administration
Oral Administration
-Esterified estrogens; methyltestosterone combinations are administered orally; administer with or immediately after food to decrease nausea.
This monograph discusses the adverse reactions seen with the combined use of esterified estrogens; methyltestosterone for hormone replacement therapy (HRT) in females. Clinicians may wish to consult the monograph for either Esterified estrogens or Methyltestosterone separately for more information about adverse reactions related to the separate use of these medications.
Many of the serious adverse reactions reported with the use of estrogens are similar to those reported with the use of estrogen-containing oral contraceptives. The risk of these serious events are typically lower in the postmenopausal use of these drugs, presumably due to the comparatively low estrogen doses used in this population for hormone replacement therapy versus those needed for contraception. Oral esterified estrogens; methyltestosterone combinations have been marketed in the US for menopausal indications since 1964. Post-marketing surveillance data available from the manufacturer for the period of 1989 to 1996, representing over 1-million woman-years of exposure, reveals a low incidence of serious side effects (6.1%) in cases reported. No deaths related to esterified estrogens; methyltestosterone use were reported within this time period.
A variety of dermatologic and allergic side effects can occur during therapy with esterified estrogens; methyltestosterone combinations. Cosmetically undesirable side effects of methyltestosterone such as acne vulgaris, alopecia, and hirsutism, are the more commonly noticed effects of androgen therapy in females with appropriate physiological replacement; the appearance of these side effects may respond well to dosage reduction. Either methyltestosterone or estrogens may induce or aggravate acne. Melasma, in the form of tan or brown patches, may develop due to estrogen therapy at sites on the forehead, cheeks, temples and upper lip. These patches may persist after the drug is discontinued. Other dermatologic reactions noted with estrogens include erythema multiforme, erythema nodosum, hemorrhagic eruption, loss of scalp hair (alopecia), and hirsutism. Allergic reactions, such as pruritus, maculopapular rash, urticaria, angioedema, and anaphylactoid reactions have been reported.
Methyltestosterone can cause virilization including deepening of the voice and clitoral enlargement. Clitoromegaly usually is not reversible after androgens are discontinued. Observe women for signs of virilization such as voice deepening, hirsutism, acne, clitoromegaly, and menstrual irregularities. Discontinuation of esterified estrogens; methyltestosterone at the time of evidence of mild virilism is necessary to prevent irreversible virilization, which is usual after androgen use at high doses.
A variety of endocrine and urogenital effects can occur during therapy with estrogens/androgen combinations such as esterified estrogens; methyltestosterone. Changes in sexuality include libido increase or libido decrease. Positive changes in libido may occur as a result of improvements in vulvar and vaginal atrophy in postmenopausal women. Vaginal discharge or cervical secretion, vaginal candidiasis, vaginitis, cervicitis, or changes in cervical erosion may appear. Estrogens may cause enlargement of uterine leiomyomatas (fibroids), if present. A cystitis-like syndrome has been reported. Other fairly common events reported with estrogens and/or methyltestosterone therapy include change in menstrual flow or breakthrough bleeding, premenstrual-like syndrome with dysmenorrhea, and menstrual irregularity. In post-menopausal women, changes in uterine bleeding patterns will usually taper and stabilize within 3-6 months of beginning cyclic or continuous HRT combinations. Amenorrhea is desirable in many postmenopausal women and not considered to be an adverse effect of estrogen therapy. However, when estrogens are used for the treatment of hypogonadism in premenopausal females, continued amenorrhea may signal a lack of response to estrogen therapy. Methyltestosterone has been associated with a continuation of amenorrhea after discontinuation of therapy. Unusual vaginal bleeding, menorrhagia, or spotting that persists beyond 6 months in any woman on estrogen therapy should be evaluated by a health care professional. For women who have a uterus, adequate diagnostic measures such as endometrial sampling, when indicated, should be undertaken to rule out malignancy in cases of undiagnosed persistent or recurring abnormal vaginal bleeding. Women who take estrogens should follow current recommendations for annual pelvic examinations including regular Papanicolaou smears to detect cervical dysplasia.
Breast changes that may occur with esterified estrogens; methyltestosterone include mastalgia and breast tenderness; mastalgia is relatively common. Women on hormone replacement therapy may also complain of breast enlargement or galactorrhea. Patients should report breast changes, lumps, or breast discharge to their health care professionals, and follow current recommendations for routine mammography and clinical breast examinations.
Stomach/abdominal pain or cramps, bloating, and nausea which may sometimes cause vomiting are common adverse effects of estrogens, including esterified estrogens; methyltestosterone. Consider benign hepatic adenomas if abdominal pain/tenderness, abdominal mass, or hypovolemic shock is present, as the adenoma may rupture and cause intraabdominal hemorrhage. Benign hepatic adenomas appear to be associated with the use of oral contraceptives, and enlargement of hepatic hemangiomas has been reported with estrogen therapies. Pancreatitis and colitis have also been reported. In patients with preexisting hypertriglyceridemia, estrogen therapy may be associated with elevations of plasma triglycerides leading to pancreatitis and other complications. Estrogens enhance hepatic lipoprotein uptake and inhibit bile acid synthesis, resulting in increased concentration of cholesterol in the bile, which can lead to biliary obstruction, cholestasis, and cholelithiasis. Cholestatic jaundice and an increased incidence of gallbladder disease have also been reported. A 2- to 4-fold increase in the risk of gallbladder disease (e.g., cholecystitis) requiring surgery in postmenopausal women receiving estrogens has been reported. Estrogens may be poorly metabolized in patients with impaired liver function. For patients with a history of cholestatic jaundice associated with past estrogen use or with pregnancy, use esterified estrogens; methyltestosterone cautiously. If cholestatic jaundice recurs, discontinue the estrogen. In addition to estrogens, cholestatic hepatitis and jaundice have been reported with 17-alpha-alkylandrogens like methyltestosterone. Rare adverse reactions of include hepatitis (and elevated hepatic enzymes). Androgens have also been associated with the development of hepatic neoplasms including hepatocellular carcinoma. The incidence of hepatoma or liver cancer from hormone replacement is expected to be extremely rare. Methyltestosterone, as well as estrogen therapy, may induce peliosis hepatis, a very rare but potentially life-threatening adverse effect characterized by the presence of blood-filled spaces. For any patient developing elevated hepatic enzymes or cholestatic hepatitis with jaundice, discontinue esterified estrogens; methyltestosterone and determine the etiology. Drug-induced jaundice is usually reversible when the medication is discontinued.
Deep and superficial venous thrombosis, pulmonary embolism, thrombophlebitis, myocardial infarction, and stroke have been reported with estrogens and/or progestin therapy. The use of estrogens in postmenopausal women, with or without a progestin, carries a risk for thromboembolism, and cardiovascular events such as myocardial infarction (MI) or stroke. Detailed information regarding what is known about thromboembolic and cardiovascular risk in postmenopausal women is available in the boxed warnings and precautions section of the product labeling for the products, as these risks must be considered prior to use of HRT in women, and with consideration to age and other risk factors for these events. Risks vary with the use of estrogen-alone vs. use of estrogen with progestin therapy. It is not clear how methyltestosterone influences these risks in women. Should any of these events occur or be suspected, discontinue the estrogen or estrogen-progestin therapy immediately.
Esterified estrogens; methyltestosterone may cause sodium and fluid retention, resulting in edema or mild weight gain. Estrogens should be prescribed cautiously to patients in whom edema formation would be detrimental. In addition, estrogens can slightly increase blood pressure, occasionally causing hypertension. Data indicate in most patients the change is not clinically significant. In a small number of case reports, substantial increases in blood pressure have been attributed to idiosyncratic reactions to estrogens. In a large, randomized, placebo-controlled clinical trial, a generalized effect of estrogens on blood pressure was not seen. In the PEPI trial, postmenopausal women 45-65 years of age randomized to any hormone replacement therapy regimen experienced increases in both systolic and diastolic blood pressure of 3-5% after the first year of treatment, but the increases were not statistically different from placebo. Monitor blood pressure at regular intervals with esterified estrogens; methyltestosterone use.
Headache has been noted with use of estrogens such as esterified estrogens; methyltestosterone. A severe headache may be a warning sign of a serious adverse event such as a stroke or retinal problems (e.g., thrombosis) in the eye. Discontinue the estrogen pending examination if there is sudden partial or complete loss of vision or sudden onset of migraine. If examination reveals a serious event, estrogens should be permanently discontinued. The relationship of headache, specifically migraine headache, and the administration of estrogens is not clearly defined. A number of changes can occur when a woman initiates HRT and include 1) migraines can appear for the first time, 2) a change in frequency, severity and duration of migraine headaches may be seen, or 3) an improvement or decrease in the occurrence of migraine headaches. Such adverse events are not frequent. When initiating estrogens an individual's headache pattern should be observed and, if migraines worsen, consider discontinuing therapy.
Mental depression, nervousness or anxiety, dizziness, mood disturbances such as emotional lability, and irritability have been reported with estrogens such as esterified estrogens; methyltestosterone. Complaints of insomnia or fatigue may be associated with the underlying menopausal complaints or may be associated with treatment. Women with a history of depression may need special monitoring. If significant depression occurs, the hormone replacement therapy should be discontinued.
Some women taking esterified estrogens; methyltestosterone combinations may notice tenderness, swelling, or minor bleeding of their gums, which may lead to gingivitis. Proper attention to oral care and regular dental visits are recommended.
Retinal thrombosis has been reported in patients receiving estrogens such as esterified estrogens; methyltestosterone. Discontinue medication pending examination if there is sudden visual impairment either partial or complete or a sudden onset of proptosis, diplopia, or migraine. If examination reveals papilledema, visual loss, or retinal vascular lesions, permanently discontinue estrogens. Exogenous estrogen use can cause a conical cornea to develop from steepening or increased curvature of the cornea, caused by thinning of the stroma. Patients with contact lenses may develop intolerance to their lenses.
Estrogens and androgens are known to cause teratogenesis during pregnancy and are thus contraindicated for use during pregnancy. Increased risk of a wide variety of fetal abnormalities, including modified development of sexual organs, cardiovascular anomalies, and limb defects, have been reported after the use of these hormones in pregnant women. Virilization of the female fetus may occur on exposure to androgens. The use of diethylstilbestrol, DES is well known for creating disturbances in the reproductive systems of both male and female offspring; similar disturbances are reported to occur in female offspring of rats exposed to other estrogens during gestation. In any patient in whom pregnancy is suspected, pregnancy should be ruled out before continuing combined esterified estrogens; methyltestosterone use.
Reduced carbohydrate tolerance and potentially hyperglycemia has been reported with estrogens. Limited clinical studies of estrogen regimens have not noted significant alterations in glucose metabolism in healthy post-menopausal women. However, altered glucose tolerance secondary to decreased insulin sensitivity may be important for patients with hyperglycemia or diabetes mellitus. In patients with diabetes, the metabolic effects of androgens such as methyltestosterone may decrease blood glucose and thus alter insulin requirements. Patients should be observed for changes in glucose tolerance or the need for antidiabetic medication dose adjustments when initiating or discontinuing combined esterified estrogens; methyltestosterone therapy.
There is an association of unopposed estrogen therapy and endometrial hyperplasia in women with an intact uterus. Unopposed estrogen therapy can promote endometrial hyperplasia in approximately 10% of patients with an intact uterus, and thus increase the risk of endometrial cancer. Adding a progestin to estrogen therapy has been shown to reduce, but not eliminate, the risk of endometrial hyperplasia, which may be a precursor to endometrial cancer. With concurrent progestin use (cyclically or continuously), the incidence of endometrial hyperplasia due to esterified estrogens is estimated to be 1% or less. Clinical surveillance of all women using estrogen-alone or estrogen plus progestin therapy is important. Adequate diagnostic measures, including directed or random endometrial sampling when indicated, should be undertaken to rule out malignancy in postmenopausal women with undiagnosed persistent or recurring abnormal vaginal bleeding. The reported endometrial cancer risk among unopposed estrogen users is about 2- to 12-times greater than in non-users, and appears dependent on duration of treatment and on estrogen dose. Most studies show no significant increased risk associated with use of estrogens for less than 1 year. The greatest risk appears associated with prolonged use, with increased risks of 15-to 24-fold for 5 to 10 years or more, and this risk has been shown to persist for at least 8 to 15 years after estrogen therapy is discontinued. There is no evidence that the use of natural estrogens results in a different endometrial risk profile than synthetic estrogens of equivalent estrogen dose.
Numerous epidemiologic studies have examined the effects of estrogen and estrogen-progestin hormone replacement therapy (HRT) on the development of new primary malignancy (e.g., breast cancer, endometrial cancer, ovarian cancer) in post-menopausal women. Detailed clinical study information regarding what is known about cancer risk in postmenopausal women is available in the boxed warnings and precautions section of the product labeling for the products, as these risks must be considered prior to use of HRT in women, and with consideration to age and other risk factors for these events. The risk for endometrial cancer is increased in women who take unopposed estrogen. Adding a progestin to estrogen therapy has been shown to reduce, but not eliminate, the risk of endometrial hyperplasia, which may be a precursor to endometrial cancer. The Women's Health Initiative (WHI) estrogen plus progestin study reported increased risks of invasive breast cancer in patients taking combined estrogen-progestin HRT vs. placebo. The potential risk of breast cancer may increase with longer duration of use. Women who used hormonal therapy for menopausal symptoms also had an increased risk for ovarian cancer, but data are still uncertain if risk is associated with a specific duration of use. The effect of methyltestosterone on the risk of malignancy with hormone replacement therapy is not known.
Hormone replacement therapy (HRT), both estrogen/progestin combination therapy and estrogen alone therapy, fails to prevent mild impaired cognition (memory loss) and is positively associated with the risk of developing dementia in women 65 years and older; do not use HRT to prevent or treat dementia or preserve cognition (memory). When data from the 2 populations in the WHIMS estrogen-alone and estrogen plus progestin ancillary studies were pooled as planned in the WHIMS protocol, the reported overall relative risk for probable dementia was 1.76 (95% CI 1.19 to 2.60, p = 0.005). Since both ancillary studies were conducted in women 65 to 79 years of age, it is unknown whether these findings apply to younger postmenopausal women. In the Women's Health Initiative Memory Study (WHIMS) estrogen plus progestin ancillary study, a population of 4,532 postmenopausal women 65 to 79 years of age was randomized to daily estrogen plus progestin or placebo. After an average follow-up of 4 years, 40 women in the estrogen plus progestin group and 21 women in the placebo group were diagnosed with probable dementia. The relative risk of probable dementia for estrogen plus progestin vs. placebo was 2.05 (95% CI, 1.21 to 3.48). The absolute risk of probable dementia for estrogen plus progestin vs. placebo was 45 vs. 22 cases per 10,000 women-years. In the WHIMS estrogen-alone ancillary study of WHI, a population of 2,947 hysterectomized women 65 to 79 years of age was randomized to daily estrogen-alone or placebo. After an average follow-up of 5.2 years, 28 women in the estrogen-alone group and 19 women in the placebo group were diagnosed with probable dementia. The relative risk of probable dementia for estrogen-alone vs. placebo was 1.49 (95% CI, 0.83 to 2.66). The absolute risk of probable dementia for estrogen-alone versus placebo was 37 vs. 25 cases per 10,000 women-years.
Adverse events that have been reported with estrogens include leg muscle cramps, hypocalcemia, and exacerbations of asthma and systemic lupus erythematosus.
Estrogens influence the metabolism of calcium and phosphorus, and androgen therapy may cause hypercalcemia by stimulating osteolysis. Administration of esterified estrogens; methyltestosterone may lead to severe hypercalcemia in patients with breast cancer and bone metastases. Thus, cautious use of esterified estrogens; methyltestosterone is needed for patients with metabolic bone diseases that are associated with hypercalcemia or for patients with renal insufficiency. If severe hypercalcemia occurs, stop esterified estrogens; methyltestosterone, and take appropriate measures to reduce the serum calcium concentration.
Esterified estrogens; methyltestosterone products are contraindicated in patients with a history of hypersensitivity to estrogens, methyltestosterone, or any components of the formulations. Esterified estrogens; methyltestosterone is contraindicated in patients with a history of anaphylaxis or history of angioedema to estrogens. Cases of both anaphylactic reactions and angioedema have been reported in patients taking exogenous estrogens. Events have developed in minutes and have required emergency medical treatment. In addition, exogenous estrogens may induce or exacerbate symptoms of angioedema, particularly in women with hereditary angioedema, which may be hormonally sensitive.
Estrogens are generally contraindicated in patients with a history of, or known or suspected breast cancer. The use of estrogen-alone and estrogen plus progestin has been reported to result in an increase in abnormal mammograms, requiring further evaluation. All women taking estrogen with or without a progestin should receive an annual clinical breast examination, perform monthly self-examinations, and have regular mammograms as recommended by their health care professional based on patient age, risk factors, and prior mammogram results. Since the 1970's, numerous epidemiological studies have examined the association of estrogens or combined hormone replacement therapy (HRT) and breast cancer (new primary malignancy). The most important randomized clinical trial providing information about breast cancer in estrogen-alone users is the Womens Health Initiative (WHI) substudy of estrogens-alone. In the WHI estrogen-alone substudy, after an average follow-up of 7.1 years, daily estrogen monotherapy was not associated with an increased risk of invasive breast cancer [relative risk (RR) 0.80]. The most important randomized clinical trial providing information about breast cancer in patients taking combined estrogen-progestin HRT regimens is the WHI substudy of estrogen plus progestin. After a mean follow-up of 5.6 years, the WHI estrogen plus progestin substudy reported an increased risk of invasive breast cancer in women who took daily estrogen plus progestin vs. placebo. In this substudy, prior use of estrogen-alone or estrogen plus progestin therapy was reported by 26 percent of the women. The relative risk of invasive breast cancer was 1.24, and the absolute risk was 41 versus 33 cases per 10,000 women-years, for estrogen plus progestin compared with placebo. Among women who reported prior use of hormone therapy, the relative risk of invasive breast cancer was 1.86, and the absolute risk was 46 vs. 25 cases per 10,000 women-years for estrogen plus progestin compared with placebo. Among women who reported no prior use of hormone therapy, the relative risk of invasive breast cancer was 1.09, and the absolute risk was 40 vs. 36 cases per 10,000 women-years for estrogen plus progestin compared with placebo. In the same WHI substudy, invasive breast cancers were larger, were more likely to be node positive, and were diagnosed at a more advanced stage in the combined HRT group compared with the placebo group. Metastatic disease was rare, with no apparent difference between the 2 groups. Other prognostic factors, such as histologic subtype, grade and hormone receptor status did not differ between the 2 groups. Consistent with the WHI clinical trial, observational studies have also reported an increased risk of breast cancer for estrogen plus progestin therapy, and a smaller increased risk for estrogen-alone therapy, after several years of use. The risk increased with duration of use, and appeared to return to baseline over about 5 years after stopping treatment (only the observational studies have substantial data on risk after stopping). Observational studies also suggest that the risk of breast cancer was greater, and became apparent earlier, with combined HRT as compared to estrogen-alone therapy. However, these studies have not found significant variation in the risk of breast cancer among different estrogen plus progestin combinations, doses, or routes of administration. While estrogen therapy may be used rarely for the palliative treatment of advanced breast cancer in men and women, estrogen administration may lead to severe hypercalcemia in patients with breast cancer and bone metastases. If hypercalcemia occurs, use of the drug should be stopped and appropriate measures taken to reduce the serum calcium level.
Esterified estrogens; methyltestosterone products are contraindicated in the presence of estrogen-responsive tumors, including ovarian cancer. The effect of esterified estrogens; methyltestosterone therapy on the risk of ovarian cancer is unknown. What is known about the risk of ovarian cancer due to hormonal therapy is derived from data available for estrogen-alone and estrogen plus progestin products; studies are not available for estrogen plus androgen combinations. The Women's Health Initiative (WHI) estrogen plus progestin substudy reported a statistically non-significant increased risk of ovarian cancer. After an average follow-up of 5.6 years, the relative risk for ovarian cancer for estrogen plus progestin versus placebo was 1.58 (95% CI 0.77 to 3.24). The absolute risk for estrogen plus progestin versus placebo was 4 versus 3 cases per 10,000 women-years. A meta-analysis of 17 prospective and 35 retrospective epidemiology studies found that women who used hormonal therapy for menopausal symptoms had an increased risk for ovarian cancer. The primary analysis, using case-control comparisons, included 12,110 cancer cases from the 17 prospective studies. The relative risk associated with current use of hormonal therapy was 1.41 (95% confidence interval [CI] 1.32 to 1.5); there was no difference in the risk estimates by duration of the exposure (less than 5 years [median of 3 years] vs. greater than 5 years [median of 10 years] of use before the cancer diagnosis). The relative risk associated with combined current and recent use (discontinued use within 5 years before cancer diagnosis) was 1.37 (95% CI 1.27 to 1.48), and the elevated risk was significant for both estrogen-alone and estrogen plus progestin products. The exact duration of hormone therapy use associated with an increased risk of ovarian cancer, however, is unknown.
Esterified estrogens; methyltestosterone therapy is contraindicated in patients with known estrogen-dependent malignancies. There is an association of unopposed estrogen therapy and endometrial cancer in women with an intact uterus. Adding a progestin to estrogen therapy has been shown to reduce the risk of endometrial hyperplasia, which may be a precursor to endometrial cancer. Clinical surveillance of all women using esterified estrogens; methyltestosterone therapy is important. Adequate diagnostic measures, including directed or random endometrial sampling when indicated, should be undertaken to rule out malignancy in postmenopausal women with undiagnosed persistent or recurring abnormal vaginal bleeding. The reported endometrial cancer risk among unopposed estrogen users is about 2- to 12-times greater than in non-users, and appears dependent on duration of treatment and on estrogen dose. Most studies show no significant increased risk associated with use of estrogens for less than 1 year. The greatest risk appears associated with prolonged use, with increased risks of 15-to 24-fold for 5 to 10 years or more, and this risk has been shown to persist for at least 8 to 15 years after estrogen therapy is discontinued. There is no evidence that the use of natural estrogens results in a different endometrial risk profile than synthetic estrogens of equivalent estrogen dose. With concurrent progestin use (cyclically or continuously), the incidence of endometrial hyperplasia due to conjugated estrogens is estimated to be 1% or less.
Esterified estrogens; methyltestosterone products are contraindicated in the presence of vaginal cancer, cervical cancer, uterine cancer, or other estrogen-responsive tumors. Clinical surveillance of all women using estrogen plus androgen therapy is important; all women receiving esterified estrogens; methyltestosterone treatment should have an annual pelvic examination and other diagnostic or screening tests, such as cervical cytology, as clinically indicated or as generally recommended based on age, risk factors, and other individual needs. Because estrogens influence the growth of endometrial tissues, use estrogens cautiously in women with endometriosis or uterine leiomyomata (uterine fibroids). A few cases of malignant transformation of residual endometrial growths have been reported in women treated post-hysterectomy with estrogen therapy without a progestin. For women known to have residual endometriosis post-hysterectomy, the addition of a progestin should be considered to reduce the risk of endometrial tissue growth.
Estrogens are contraindicated in patients with an active or past history of stroke, thrombophlebitis, thromboembolic disease or thromboembolism, or myocardial infarction (MI). An increased risk of cerebrovascular disease (stroke) and deep venous thrombosis (DVT) has been reported with unopposed estrogen therapy. An increased risk of pulmonary embolism (PE), DVT, stroke and myocardial infarction (MI) has been reported with estrogen plus progestin hormone replacement therapy (HRT). Should any of these events occur or be suspected, discontinue esterified estrogens; methyltestosterone immediately. Estrogens are also contraindicated for patients with known protein C deficiency, protein S deficiency, or antithrombin deficiency or other known thrombophilic disorders associated with increased risk of venous thrombosis. Other risk factors for arterial vascular disease (e.g., hypertension, diabetes, tobacco smoking, hypercholesterolemia, and obesity) and/or venous thromboembolism (VTE) [e.g., personal history or family history of VTE, obesity, or systemic lupus (SLE)] should be monitored and managed appropriately. A positive relationship between estrogen use and an increased risk for thromboembolism has been demonstrated. In the WHI estrogen-alone substudy, the risk of VTE (DVT and PE) was increased for women receiving daily unopposed estrogen compared to placebo (30 vs. 22 per 10,000 women-years), although only the increased risk of DVT reached statistical significance (23 vs. 15 per 10,000 women years). The increase in VTE risk was demonstrated during the first 2 years. In the WHI estrogen plus progestin substudy, a statistically significant 2-fold greater rate of VTE was reported in women receiving estrogen plus progestin HRT compared to women receiving placebo (35 vs. 17 per 10,000 women-years). Statistically significant increases in risk for both DVT (26 vs. 13 per 10,000 women-years) and PE (18 vs. 8 per 10,000 women-years) were also demonstrated. The increase in VTE risk was demonstrated during the first year and persisted. Estrogens with or without progestins should not be used for the prevention of cardiac disease or cardiovascular disease (e.g., coronary artery disease). In the Women's Health Initiative (WHI) estrogen-alone substudy, no overall effect on coronary heart disease (CHD) events (defined as non-fatal MI, silent MI, or CHD death ) was reported in women receiving estrogen-alone compared to placebo. Subgroup analyses of women 50 to 59 years of age suggest a statistically non-significant reduction in CHD events (CE-alone vs. placebo) in women with less than 10 years since menopause (8 vs. 16 per 10,000 women-years). In the WHI estrogen plus progestin substudy, there was a statistically non-significant increased risk of CHD events reported in women receiving daily estrogen plus progestin compared to women receiving placebo (41 vs. 34 per 10,000 women-years). An increase in relative risk was demonstrated in year 1, and a trend toward decreasing relative risk was reported in years 2 through 5. Studies have also shown no cardiovascular benefit to the use of estrogens or estrogen-progestin therapy for secondary prevention in women with documented cardiac disease or CHD. Estrogens also increase the risk for stroke. In the WHI estrogen-alone substudy, a statistically significant increased risk of stroke was reported in women 50 to 79 years of age receiving estrogen-alone compared to women in the same age group receiving placebo (45 vs. 33 per 10,000 women-years). The increase in risk was demonstrated in the first year and persisted. Subgroup analyses of women 50 to 59 years of age suggest no increased risk of stroke for those women receiving estrogen-alone versus those receiving placebo (18 vs. 21 per 10,000 women-years). In the WHI estrogen plus progestin substudy, a statistically significant increased risk of stroke was reported in women 50 to 79 years of age receiving estrogen plus progestin HRT compared to women in the same age group receiving placebo (33 vs. 25 per 10,000 women-years). The increase in risk was demonstrated after the first year and persisted. Women over the age of 65 years were at increased risk for non-fatal stroke. Patients with hypertension should be monitored closely for increases in blood pressure if estrogens are administered. In a small number of case reports, substantial increases in blood pressure have been attributed to idiosyncratic reactions to estrogen therapy. In a large, randomized, placebo controlled clinical trial, a generalized effect of estrogens on blood pressure was not seen. Estrogens may cause some degree of fluid retention. Women with conditions that might be influenced by this factor, such as a cardiac disease, warrant careful observation when estrogens are prescribed.
If feasible, esterified estrogens therapy should be discontinued at least 4 to 6 weeks before any surgery associated with an increased risk of thromboembolism, or during any periods of prolonged immobilization. The decision on when to resume estrogens after such procedures or conditions would be based on the perceived additional thromboembolic risk from estrogen use and the need for estrogen therapy; resume only after the patient is fully ambulatory. In addition, women taking esterified estrogens should be advised to move about periodically during travel involving prolonged immobilization.
Esterified estrogens; methyltestosterone use is contraindicated during pregnancy. There is no known approved indication for the use of estrogens during pregnancy. There appears to be little or no increased risk of birth defects in children born to women who have used estrogens and progestins from oral contraceptives inadvertently during early pregnancy. Estradiol and other estrogens freely cross the placenta to the fetus. Increased risk of a wide variety of fetal abnormalities, including modified development of sexual organs, cardiovascular anomalies and limb defects, have been reported following the continued use of estrogens in pregnant women. Methyltestosterone may cause virilization of the female fetus, including structural changes in the external and internal female genitalia. In any patient in whom pregnancy is suspected, pregnancy should be ruled out before continuing esterified estrogens-methyltestosterone use. If a woman of childbearing potential becomes pregnant during therapy, she should be informed of potential fetal risks.
Esterified estrogens; methyltestosterone products are contraindicated in lactating women who are breast-feeding an infant. Estrogens are distributed into breast milk and may interfere with proper lactation. Androgens have also been reported to interfere with lactation. Androgens, if distributed into breast-milk, could also have unwanted effects on the nursing infant, such as masculinization of the female infant.These products are not approved by the FDA for the treatment of postpartum breast engorgement.
Esterified estrogens; methyltestosterone products are contraindicated in the presence of hepatocellular cancer, hepatic adenoma, or in severe hepatic disease of any type. Estrogens and methyltestosterone may be poorly metabolized in women with impaired liver function. For women with a history of cholestatic jaundice associated with past estrogen use or with pregnancy, caution should be exercised, and in the case of recurrence, esterified estrogens should be discontinued. Estrogens should also be used cautiously in patients with acute intermittent, or variegate hepatic porphyria, which can be exacerbated. Estrogens have been reported during trials to increase the risk of gallbladder disease (e.g., cholestasis, cholelithiasis and cholecystitis) by roughly 2- to 4-fold in postmenopausal women; use with caution in patients with a history of gallbladder disease. Methyltestosterone may cause hepatotoxicity. Prolonged use of high doses of androgens has been associated with the development of peliosis hepatis and hepatic neoplasms including hepatocellular carcinoma. Cholestatic hepatitis or jaundice may occur at a relatively low dose. If liver function tests become abnormal during therapy, discontinue the medication, and the etiology of the abnormalities should be determined. Drug-induced jaundice is reversible when the medication is discontinued.
Patients with systemic lupus erythematosus (SLE) may have increased risk for thromboembolism and should be managed appropriately when estrogen therapy is considered. Approximately 85% of patients diagnosed with systemic lupus erythematosus (SLE) are females, giving support to the notion that hormonal influences, especially estrogen, contribute to the pathophysiology of SLE. Accordingly, hormone replacement therapy (HRT) has been reported to induce, unmask, and exacerbate lupus; case reports, anecdotal data, and the prospective Nurses Health Study indicate that a temporal relationship between HRT and lupus exist. However, several retrospective studies dispute a relationship between estrogens and lupus, and the SELENA trial, a large prospective, randomized clinical trial evaluating the safety of estrogen therapy (both as oral contraceptives and HRT in postmenopausal women) in patients with SLE has been completed and is being analyzed. Determining the risk of estrogen therapy in SLE patients is important as postmenopausal women with lupus can benefit from HRT; not only does it offer relief from postmenopausal symptoms (vasomotor symptoms, genital symptoms, and emotional lability), but it has the additional benefit of protecting patients from bone fracture and postmenopausal or drug-induced (i.e., chronic corticosteroid or cyclophosphamide therapy) osteoporosis. Women with hypercoagulable states are at increased risk of venous thromboembolism when taking HRT; given the increased prevalence of hypercoagulable states in patients with SLE (in particular antiphospholipid antibodies), the use of HRT in this population may be even more risky as the incidence of strokes, heart attacks, and blood clots is increased in general in women taking HRT. Unfortunately, definitive recommendations regarding the use of HRT in patients with SLE are not available. The results of the SELENA trial should provide evidence regarding the use of HRT in this population.
In women with pre-existing hypertriglyceridemia, estrogen therapy may be associated with elevations of plasma triglycerides leading to pancreatitis. Consider discontinuation of esterified estrogens treatment if pancreatitis occurs.
Patients with risk factors for arterial vascular disease (e.g., diabetes mellitus), which may increase the risk for thromboembolism, should be monitored and managed appropriately during esterified estrogens; methyltestosterone therapy. Patients with diabetes mellitus should be observed for changes in glucose tolerance when initiating or discontinuing estrogen therapy, since estrogen therapy may exacerbate diabetes. Altered glucose tolerance secondary to decreased insulin sensitivity has been reported.
Retinal vascular thrombosis has been reported in women receiving estrogens. Any visual disturbance should be examined by an ophthalmologist. Discontinue the estrogen pending examination if there is sudden partial or complete loss of vision, or a sudden onset of proptosis, diplopia, or migraine with visual changes. If examination reveals papilledema or retinal vascular lesions, estrogens should be permanently discontinued. Estrogen therapy may cause an exacerbation of migraine or a change in headache patterns and should be used with caution in women with migraine. Patients who complain of migraine with focal neurologic visual changes should be evaluated, and in some patients, such changes may indicate cerebrovascular events. Estrogens can increase the curvature of the cornea and may lead to intolerance of contact lenses.
Use esterified estrogens; methyltestosterone with caution in patients with thyroid disease, particularly hypothyroidism. Estrogens can increase thyroid-binding globulin (TBG) levels. Patients with normal thyroid function can compensate for the increased TBG by making more thyroid hormone, thus maintaining free T4 and T3 serum concentrations in the normal range. Patients dependent on thyroid hormone replacement therapy who are also receiving estrogens may require increased doses of their thyroid replacement therapy. These patients should have their thyroid function monitored in order to maintain their free thyroid hormone levels in an acceptable range.
Because estrogens may cause fluid retention, conditions that might be affected by fluid retention, such as heart disease or renal disease, require careful observation. Estrogen therapy may also cause an exacerbation of asthma, seizure disorder, and hepatic hemangiomas in some patients and should be used with caution in women with these conditions.
Mood disorders, like depression, may be aggravated in women taking exogenous estrogens or androgens. Women with a history of depression may need special monitoring. If significant depression occurs, the hormone replacement therapy should be discontinued.
Estrogen therapy should be used with caution in women with hypoparathyroidism as estrogen-induced hypocalcemia may occur.
Hormone replacement therapy (HRT), both estrogen/progestin combination therapy and estrogen alone therapy, has been found to fail to prevent mild cognitive impairment (memory loss) and to increase the risk of dementia in women 65 years and older. Administration of HRT should generally be avoided in women 65 years of age and older, and HRT should not be used to prevent or treat dementia or preserve cognition (memory). Overall risk vs. benefit should be considered along with the goals of use of HRT for the individual patient when considering whether to continue HRT in a geriatric woman over 65 years of age. According to the Beers Criteria, oral, topical patch, or other systemic forms of estrogens (with or without progestins), are considered potentially inappropriate medications (PIMs) for use in geriatric patients and should be avoided due to evidence of carcinogenic potential (i.e., breast and endometrium) and lack of cardiovascular or cognitive protective effects in older women. Additionally, the Beers expert panel recommends avoiding oral or transdermal estrogen in elderly women with any type of urinary incontinence due to lack of efficacy. The Beers expert panel considers use of vaginal estrogens acceptable for the management of dyspareunia, recurrent lower urinary tract infections, and other vaginal/vulvar symptoms.
The safety and efficacy of esterified estrogens; methyltestosterone products have not been established in infants, children, or adolescents under the age of 18 years. Estrogens are not indicated in children because estrogens promote epiphysial closure. In young children, overdose of estrogens have not been reported to cause serious ill effects. However, nausea is common. Vaginal withdrawal bleeding may occur in female children exposed to estrogens in large doses.
For the treatment of moderate to severe vasomotor symptoms (hot flashes) associated with menopause in women not achieving adequate therapeutic response on estrogen replacement alone:
Oral dosage:
Adult menopausal and postmenopausal females: 1 tablet of 1.25 mg of esterified estrogens with 2.5 mg of methyltestosterone PO once daily; or, 1 to 2 tablets of 0.625 mg esterified estrogens with 1.25 mg methytestosterone PO once daily. Use lowest effective dose. Administer cyclically (e.g., 3 weeks on and 1 week off). In a patient with an intact uterus, monitor closely for potential endometrial hyperplasia. Reassess hormone therapy at 3 to 6-month intervals to determine if a taper is possible or if continued use is appropriate. Guidelines do not address the safety and efficacy of adding an androgen to estrogen therapy to improve response; no long-term safety and efficacy data are available. The North American Menopause Society (NAMS) Guidelines support the initiation of hormone replacement therapy (HRT) around the time of menopause if no contraindications to use exist and use is acceptable to the individual patient, as hormone therapy is the most effective treatment for vasomotor and genitourinary symptoms and has been shown to prevent bone loss and fracture. Early initiation of HRT and continuation of use at until the median age of menopause (52 years) is recommended in women with premature natural or surgically induced menopause. HRT for vasomotor symptoms and/or increased risk for bone loss around the time of menopause may be considered in those women aged younger than 60 years or who are fewer than 10 years from menopause onset. For women who initiate HRT more than 10 or 20 years from menopause onset or are aged 60 years or older, the benefit-risk ratio is less favorable due to known risks for HRT (e.g., stroke, myocardial infarction, venous thromboembolism, dementia, urinary incontinence), and guidelines generally recommend against use in these women. Decisions regarding whether to continue systemic HRT in women aged older than 60 years should be made on an individual basis for quality of life, persistent vasomotor symptoms, or prevention of bone loss and fracture, with consideration given to alternative treatments for prevention of bone loss and other health issues.
Maximum Dosage Limits:
-Adults
Females: 1.25 mg/day PO of esterified estrogens with 2.5 mg/day PO of methyltestosterone.
-Geriatric
Females: 1.25 mg/day PO of esterified estrogens with 2.5 mg/day PO of methyltestosterone.
-Adolescents
Safety and efficacy have not been established.
-Children
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
Esterified estrogens are contraindicated in the presence of jaundice or in severe hepatic disease of any type.
Patients with Renal Impairment Dosing
Specific guidelines for dosage adjustments in renal impairment are not available; it appears that no dosage adjustments are needed.
*non-FDA-approved indication
Acarbose: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Albuterol; Budesonide: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Alogliptin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Alogliptin; Metformin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Monitor blood glucose periodically in patients on metformin for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Alogliptin; Pioglitazone: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Alpha-glucosidase Inhibitors: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Amitriptyline: (Minor) The oxidative metabolism of tricyclic antidepressants may be decreased by ethinyl estradiol. Increased antidepressant serum concentrations may occur. Ethinyl estradiol has been reported to intensify side effects from imipramine. Patients should be monitored for increased tricyclic antidepressant side effects if an estrogen is added. Current evidence indicates that this interaction may be related to the estrogen dosage, with larger doses (i.e., >= 50 mcg ethinyl estradiol/day) causing a more significant interaction.
Amobarbital: (Major) Women taking both estrogens and barbiturates should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed barbiturates. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of barbiturates. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on barbiturates, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and barbiturate are strong CYP3A4 inducers. Concurrent administration may increase estrogen elimination.
Amoxicillin; Clarithromycin; Omeprazole: (Minor) Estrogens are partially metabolized by CYP3A4. Drugs that inhibit CYP3A4 such as clarithromycin may increase plasma concentrations of estrogens and cause estrogen-related side effects such as nausea and breast tenderness. Patients receiving estrogens should be monitored for an increase in adverse events.
Anastrozole: (Major) Avoid concomitant use of estrogens and anastrozole. Estrogen-containing therapies may reduce the effectiveness of aromatase inhibitors, such as anastrozole.
Anticoagulants: (Moderate) Methyltestosterone can increase the effects of anticoagulants through reduction of procoagulant factor. Patients receiving oral anticoagulant therapy should be closely monitored, especially when methyltestosterone treatment is initiated or discontinued.
Antithrombin III: (Moderate) Methyltestosterone can increase the effects of anticoagulants through reduction of procoagulant factor. Patients receiving oral anticoagulant therapy should be closely monitored, especially when methyltestosterone treatment is initiated or discontinued.
Apalutamide: (Major) Women taking both estrogens and apalutamide should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed apalutamide. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of apalutamide. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on apalutamide, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and apalutamide is a strong CYP3A4 inducer. Concurrent administration may increase estrogen elimination.
Apixaban: (Moderate) Methyltestosterone can increase the effects of anticoagulants through reduction of procoagulant factor. Patients receiving oral anticoagulant therapy should be closely monitored, especially when methyltestosterone treatment is initiated or discontinued.
Aprepitant, Fosaprepitant: (Major) If aprepitant, fosaprepitant is coadministered with hormonal contraceptives, including hormonal contraceptive devices (skin patches, implants, and hormonal IUDs), use an alternative or back-up non-hormonal method of contraception (e.g., condoms, spermicides) during treatment and for at least 1 month following the last dose of aprepitant, fosaprepitant. The efficacy of esterified estrogens may be reduced when coadministered with aprepitant, fosaprepitant and for 28 days after the last dose. The exact mechanism for this interaction has not been described. Ethinyl estradiol is a CYP3A4 substrate and aprepitant, fosaprepitant is a CYP3A4 inducer; however, aprepitant, fosaprepitant is also a dose-dependent weak-to-moderate CYP3A4 inhibitor. When administered as an oral 3-day regimen (125mg/80mg/80mg) in combination with ondansetron and dexamethasone, aprepitant decreased trough concentrations of ethinyl estradiol and norethindrone by up to 64% for 3 weeks post-treatment. When ethinyl estradiol and norgestimate were administered on days 1 to 21 and aprepitant (40mg) give as a single dose on day 8, the AUC of ethinyl estradiol decreased by 4% on day 8 and by 29% on day 12; the AUC of norelgestromin increased by 18% on day 8, and decreased by 10% on day 12. Trough concentrations of both ethinyl estradiol and norelgestromin were generally lower after coadministration of aprepitant (40mg) on day 8 compared to administration without aprepitant. Specific studies have not been done with other hormonal contraceptives (e.g., progestins, non-oral combination contraceptives), an alternative or additional non-hormonal method of birth control during treatment and for 28 days after treatment is prudent to avoid potential for contraceptive failure. Additionally, although not specifically studied, because estrogens are CYP3A4 substrates, the efficacy of estrogens or progestins when used for hormone replacement may also be reduced. The clinical significance of this is not known since aprepitant, fosaprepitant is only used intermittently.
Argatroban: (Moderate) Methyltestosterone can increase the effects of anticoagulants through reduction of procoagulant factor. Patients receiving oral anticoagulant therapy should be closely monitored, especially when methyltestosterone treatment is initiated or discontinued.
Aspirin, ASA; Butalbital; Caffeine: (Major) Women taking both estrogens and barbiturates should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed barbiturates. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of barbiturates. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on barbiturates, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and barbiturate are strong CYP3A4 inducers. Concurrent administration may increase estrogen elimination.
Atazanavir: (Moderate) Monitor for an increase in estrogen-related adverse effects during concomitant atazanavir use and adjust estrogen dose as appropriate based on response. Atazanavir has been shown to inhibit the metabolism of ethinyl estradiol; a similar interaction may occur with other estrogens.
Atazanavir; Cobicistat: (Moderate) Monitor for an increase in estrogen-related adverse effects during concomitant atazanavir use and adjust estrogen dose as appropriate based on response. Atazanavir has been shown to inhibit the metabolism of ethinyl estradiol; a similar interaction may occur with other estrogens.
Azelastine; Fluticasone: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Barbiturates: (Major) Women taking both estrogens and barbiturates should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed barbiturates. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of barbiturates. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on barbiturates, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and barbiturate are strong CYP3A4 inducers. Concurrent administration may increase estrogen elimination.
Beclomethasone: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Belzutifan: (Major) Women taking both estrogens and belzutifan should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed belzutifan. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of belzutifan. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on belzutifan, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and belzutifan is a weak CYP3A4 inducer. Concurrent administration may increase estrogen elimination.
Betamethasone: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Betrixaban: (Moderate) Methyltestosterone can increase the effects of anticoagulants through reduction of procoagulant factor. Patients receiving oral anticoagulant therapy should be closely monitored, especially when methyltestosterone treatment is initiated or discontinued.
Bexagliflozin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Bexarotene: (Major) Women taking both estrogens and bexarotene should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed bexarotene. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of bexarotene. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on bexarotene, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and bexarotene is a moderate CYP3A4 inducer. Concurrent administration may increase estrogen elimination.
Bivalirudin: (Moderate) Methyltestosterone can increase the effects of anticoagulants through reduction of procoagulant factor. Patients receiving oral anticoagulant therapy should be closely monitored, especially when methyltestosterone treatment is initiated or discontinued.
Bosentan: (Major) Hormonal contraceptives should not be used as the sole method to prevent pregnancy in patients receiving bosentan. There is a possibility of contraceptive failure when bosentan is coadministered with products containing estrogens and/or progestins. Bosentan is teratogenic. To prevent pregnancy, females of reproductive potential must use two acceptable contraception methods during treatment and for one month after discontinuation of bosentan therapy. The patient may choose one highly effective contraceptive form, including an intrauterine device (IUD) or tubal sterilization, a combination of a hormonal contraceptive with a barrier method, or two barrier methods. If a male partner's vasectomy is chosen as a method of contraception, a hormonal or barrier method must still be used by the female patient. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on bosentan, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and bosentan is a moderate CYP3A4 inducer. Concurrent administration may increase estrogen elimination.
Bromocriptine: (Minor) Bromocriptine is used to restore ovulation and ovarian function in amenorrheic women. Estrogens and progestins can cause amenorrhea and, therefore, counteract the desired effects of bromocriptine. Concurrent use is not recommended; an alternate form of contraception is recommended during bromocriptine therapy.
Budesonide: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Budesonide; Formoterol: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Budesonide; Glycopyrrolate; Formoterol: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Butalbital; Acetaminophen: (Major) Women taking both estrogens and barbiturates should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed barbiturates. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of barbiturates. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on barbiturates, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and barbiturate are strong CYP3A4 inducers. Concurrent administration may increase estrogen elimination.
Butalbital; Acetaminophen; Caffeine: (Major) Women taking both estrogens and barbiturates should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed barbiturates. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of barbiturates. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on barbiturates, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and barbiturate are strong CYP3A4 inducers. Concurrent administration may increase estrogen elimination.
Butalbital; Acetaminophen; Caffeine; Codeine: (Major) Women taking both estrogens and barbiturates should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed barbiturates. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of barbiturates. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on barbiturates, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and barbiturate are strong CYP3A4 inducers. Concurrent administration may increase estrogen elimination.
Butalbital; Aspirin; Caffeine; Codeine: (Major) Women taking both estrogens and barbiturates should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed barbiturates. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of barbiturates. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on barbiturates, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and barbiturate are strong CYP3A4 inducers. Concurrent administration may increase estrogen elimination.
Calcium Acetate: (Minor) Estrogens can increase calcium absorption. Use caution in patients predisposed to hypercalcemia or nephrolithiasis.
Calcium Carbonate: (Minor) Estrogens can increase calcium absorption. Use caution in patients predisposed to hypercalcemia or nephrolithiasis.
Calcium Carbonate; Famotidine; Magnesium Hydroxide: (Minor) Estrogens can increase calcium absorption. Use caution in patients predisposed to hypercalcemia or nephrolithiasis.
Calcium Carbonate; Magnesium Hydroxide: (Minor) Estrogens can increase calcium absorption. Use caution in patients predisposed to hypercalcemia or nephrolithiasis.
Calcium Carbonate; Magnesium Hydroxide; Simethicone: (Minor) Estrogens can increase calcium absorption. Use caution in patients predisposed to hypercalcemia or nephrolithiasis.
Calcium Carbonate; Simethicone: (Minor) Estrogens can increase calcium absorption. Use caution in patients predisposed to hypercalcemia or nephrolithiasis.
Calcium Chloride: (Minor) Estrogens can increase calcium absorption. Use caution in patients predisposed to hypercalcemia or nephrolithiasis.
Calcium Gluconate: (Minor) Estrogens can increase calcium absorption. Use caution in patients predisposed to hypercalcemia or nephrolithiasis.
Calcium: (Minor) Estrogens can increase calcium absorption. Use caution in patients predisposed to hypercalcemia or nephrolithiasis.
Calcium; Vitamin D: (Minor) Estrogens can increase calcium absorption. Use caution in patients predisposed to hypercalcemia or nephrolithiasis.
Canagliflozin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Canagliflozin; Metformin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Monitor blood glucose periodically in patients on metformin for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Carbamazepine: (Major) Advise patients taking estrogen hormones for contraception to consider an alternate or additional form of contraception, such as nonhormonal and/or barrier methods, during and for at least 1 month following discontinuation of carbamazepine. Higher-dose hormonal regimens containing a minimum of 30 mcg of ethinyl estradiol or equivalent may also be considered. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on carbamazepine, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A substrates and carbamazepine is a strong CYP3A inducer. Concurrent administration may increase estrogen elimination.
Cenobamate: (Major) Women taking both estrogens and cenobamate should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed cenobamate. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of cenobamate. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on cenobamate, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and cenobamate is a moderate CYP3A4 inducer. Concurrent administration may increase estrogen elimination.
Chenodiol: (Minor) Estrogens and combination hormonal oral contraceptives increase hepatic cholesterol secretion, and encourage cholesterol gallstone formation and hence may theoretically counteract the effectiveness of chenodiol.
Chloramphenicol: (Minor) Estrogens are partially metabolized by CYP3A4. Drugs that inhibit CYP3A4 such as chloramphenicol may increase plasma concentrations of estrogens and cause estrogen-related side effects such as nausea and breast tenderness. Patients receiving estrogens should be monitored for an increase in adverse events.
Chlordiazepoxide; Amitriptyline: (Minor) The oxidative metabolism of tricyclic antidepressants may be decreased by ethinyl estradiol. Increased antidepressant serum concentrations may occur. Ethinyl estradiol has been reported to intensify side effects from imipramine. Patients should be monitored for increased tricyclic antidepressant side effects if an estrogen is added. Current evidence indicates that this interaction may be related to the estrogen dosage, with larger doses (i.e., >= 50 mcg ethinyl estradiol/day) causing a more significant interaction.
Chlorpropamide: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Chromium: (Minor) Estrogens can increase calcium absorption. Use caution in patients predisposed to hypercalcemia or nephrolithiasis.
Ciclesonide: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Clarithromycin: (Minor) Estrogens are partially metabolized by CYP3A4. Drugs that inhibit CYP3A4 such as clarithromycin may increase plasma concentrations of estrogens and cause estrogen-related side effects such as nausea and breast tenderness. Patients receiving estrogens should be monitored for an increase in adverse events.
Clobazam: (Moderate) Concurrent administration of clobazam, a weak CYP3A4 inducer, with estrogens, may increase the elimination of these hormones. Patients may need to be monitored for reduced clinical effect while on clobazam, with dose adjustments made based on clinical efficacy.
Clomipramine: (Minor) The oxidative metabolism of tricyclic antidepressants may be decreased by ethinyl estradiol. Increased antidepressant serum concentrations may occur. Ethinyl estradiol has been reported to intensify side effects from imipramine. Patients should be monitored for increased tricyclic antidepressant side effects if an estrogen is added. Current evidence indicates that this interaction may be related to the estrogen dosage, with larger doses (i.e., >= 50 mcg ethinyl estradiol/day) causing a more significant interaction.
Conivaptan: (Minor) Estrogens are partially metabolized by CYP3A4. Drugs that inhibit CYP3A4 such as conivaptan may increase plasma concentrations of estrogens and cause estrogen-related side effects such as nausea and breast tenderness. Patients receiving estrogens should be monitored for an increase in adverse events.
Corticosteroids: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Cortisone: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Cosyntropin: (Minor) Use cosyntropin cautiously in patients taking estrogens as these patients may exhibit abnormally high basal plasma cortisol concentrations and a decreased response to the test.
Cyclosporine: (Moderate) Androgens may increase concentrations of cyclosporine, potentially increasing the risk of nephrotoxicity. Until further data are available, close monitoring of cyclosporine serum concentrations is prudent during coadministration with androgens. (Moderate) Estrogens in oral contraceptives or non-oral combination contraceptives may inhibit the metabolism of cyclosporine. Delayed cyclosporine clearance can increase cyclosporine concentrations. Additionally, estrogens are metabolized by CYP3A4; cyclosporine inhibits CYP3A4 and may increase estrogen concentrations and estrogen-related side effects. The patient's cyclosporine concentrations should be monitored closely; monitor clinical status including blood pressure and renal and hepatic function. Be alert for complaints of estrogen-related side effects (e.g., nausea, fluid retention, breast tenderness).
Dabigatran: (Moderate) Methyltestosterone can increase the effects of anticoagulants through reduction of procoagulant factor. Patients receiving oral anticoagulant therapy should be closely monitored, especially when methyltestosterone treatment is initiated or discontinued.
Dalteparin: (Moderate) Methyltestosterone can increase the effects of anticoagulants through reduction of procoagulant factor. Patients receiving oral anticoagulant therapy should be closely monitored, especially when methyltestosterone treatment is initiated or discontinued.
Danazol: (Minor) Estrogens are partially metabolized by CYP3A4. Drugs that inhibit CYP3A4 such as danazol may increase plasma concentrations of estrogens and cause estrogen-related side effects such as nausea and breast tenderness. Patients receiving estrogens should be monitored for an increase in adverse events.
Dantrolene: (Moderate) Concomitant use of dantrolene and estrogens may increase the risk of developing hepatotoxicity. While a definite drug interaction with dantrolene and estrogen therapy has not yet been established, caution should be observed if the two drugs are to be given concomitantly. Hepatotoxicity has occurred more often, for example, in women over 35 years of age receiving concomitant estrogen therapy.
Dapagliflozin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Dapagliflozin; Metformin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Monitor blood glucose periodically in patients on metformin for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Dapagliflozin; Saxagliptin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Daratumumab; Hyaluronidase: (Minor) Estrogens, when given in large systemic doses, may render tissues partially resistant to the action of hyaluronidase. Patients receiving these medications may require larger amounts of hyaluronidase for equivalent dispersing effect.
Darunavir: (Moderate) Darunavir is expected to increase the metabolism of estrogens. Women using estrogens for hormone replacement therapy should be monitored for signs of estrogen deficiency. Patients should be instructed to report any breakthrough bleeding or adverse events to their prescribers.
Darunavir; Cobicistat: (Moderate) Darunavir is expected to increase the metabolism of estrogens. Women using estrogens for hormone replacement therapy should be monitored for signs of estrogen deficiency. Patients should be instructed to report any breakthrough bleeding or adverse events to their prescribers.
Darunavir; Cobicistat; Emtricitabine; Tenofovir alafenamide: (Moderate) Darunavir is expected to increase the metabolism of estrogens. Women using estrogens for hormone replacement therapy should be monitored for signs of estrogen deficiency. Patients should be instructed to report any breakthrough bleeding or adverse events to their prescribers.
Deflazacort: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Degarelix: (Major) Concomitant use of androgens with degarelix is relatively contraindicated, as androgens could counteract the therapeutic effect of degarelix.
Delavirdine: (Minor) Estrogens are partially metabolized by CYP3A4. Drugs that inhibit CYP3A4 such as delavirdine may increase plasma concentrations of estrogens and cause estrogen-related side effects such as nausea and breast tenderness. Patients receiving estrogens should be monitored for an increase in adverse events.
Desipramine: (Minor) The oxidative metabolism of tricyclic antidepressants may be decreased by ethinyl estradiol. Increased antidepressant serum concentrations may occur. Ethinyl estradiol has been reported to intensify side effects from imipramine. Patients should be monitored for increased tricyclic antidepressant side effects if an estrogen is added. Current evidence indicates that this interaction may be related to the estrogen dosage, with larger doses (i.e., >= 50 mcg ethinyl estradiol/day) causing a more significant interaction.
Dexamethasone: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Diltiazem: (Minor) Estrogens are partially metabolized by CYP3A4. Drugs that inhibit CYP3A4 such as diltiazem may increase plasma concentrations of estrogens and cause estrogen-related side effects such as nausea and breast tenderness. Patients receiving estrogens should be monitored for an increase in adverse events.
Dipeptidyl Peptidase-4 Inhibitors: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Doxepin: (Minor) The oxidative metabolism of tricyclic antidepressants may be decreased by ethinyl estradiol. Increased antidepressant serum concentrations may occur. Ethinyl estradiol has been reported to intensify side effects from imipramine. Patients should be monitored for increased tricyclic antidepressant side effects if an estrogen is added. Current evidence indicates that this interaction may be related to the estrogen dosage, with larger doses (i.e., >= 50 mcg ethinyl estradiol/day) causing a more significant interaction.
Dulaglutide: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together.
Edoxaban: (Moderate) Methyltestosterone can increase the effects of anticoagulants through reduction of procoagulant factor. Patients receiving oral anticoagulant therapy should be closely monitored, especially when methyltestosterone treatment is initiated or discontinued.
Efgartigimod Alfa; Hyaluronidase: (Minor) Estrogens, when given in large systemic doses, may render tissues partially resistant to the action of hyaluronidase. Patients receiving these medications may require larger amounts of hyaluronidase for equivalent dispersing effect.
Empagliflozin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Empagliflozin; Linagliptin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Empagliflozin; Linagliptin; Metformin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Monitor blood glucose periodically in patients on metformin for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Empagliflozin; Metformin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Monitor blood glucose periodically in patients on metformin for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Enasidenib: (Major) Advise patients taking estrogen hormones for contraception to consider an alternate or additional form of contraception, such as nonhormonal and/or barrier methods, during and for 2 months following discontinuation of enasidenib. Higher-dose hormonal regimens containing a minimum of 30 mcg of ethinyl estradiol or equivalent may also be considered. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on enasidenib, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A substrates and enasidenib is a CYP3A inducer. Concurrent administration may increase estrogen elimination.
Enoxaparin: (Moderate) Methyltestosterone can increase the effects of anticoagulants through reduction of procoagulant factor. Patients receiving oral anticoagulant therapy should be closely monitored, especially when methyltestosterone treatment is initiated or discontinued.
Enzalutamide: (Major) Women taking both estrogens and enzalutamide should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed enzalutamide. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of enzalutamide. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on enzalutamide, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and enzalutamide is a strong CYP3A4 inducer. Concurrent administration may increase estrogen elimination.
Ertugliflozin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Ertugliflozin; Metformin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Monitor blood glucose periodically in patients on metformin for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Ertugliflozin; Sitagliptin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Erythromycin: (Minor) Estrogens are partially metabolized by CYP3A4. Drugs that inhibit CYP3A4 such as erythromycin may increase plasma concentrations of estrogens and cause estrogen-related side effects such as nausea and breast tenderness. Patients receiving estrogens should be monitored for an increase in adverse events.
Etravirine: (Major) Women taking both estrogens and etravirine should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed etravirine. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of etravirine. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on etravirine, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and etravirine is a moderate CYP3A4 inducer. Concurrent administration may increase estrogen elimination.
Exemestane: (Major) Avoid concomitant use of estrogens and exemestane. Estrogen-containing therapies may reduce the effectiveness of aromatase inhibitors, such as exemestane.
Exenatide: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together.
Felbamate: (Major) Estrogens and progestins are both susceptible to drug interactions with hepatic enzyme inducing drugs. Estrogens are metabolized by CYP3A4. Anticonvulsants that stimulate the activity of this enzyme include: barbiturates (including primidone), carbamazepine, felbamate, oxcarbazepine, phenytoin or fosphenytoin (and possibly ethotoin), and topiramate. The anticonvulsants mentioned may cause oral contraceptive failure, especially when low-dose estrogen regimens (e.g., ethinyl estradiol is < 50 mcg/day) are used. Epileptic women taking both anticonvulsants and OCs may be at higher risk of folate deficiency secondary to additive effects on folate metabolism and the higher risk for oral contraceptive failure. During oral contraceptive failure, the additive effects could potentially heighten the risk of neural tube defects in pregnancy. Women on OCs and enzyme-inducing anticonvulsant medications concurrently should report breakthrough bleeding to their prescribers. Oral contraceptive formulations containing higher dosages of ethinyl estradiol (i.e., 50 mcg ethinyl estradiol) may be needed to increase contraceptive efficacy. It may be prudent for some women who receive OCs concurrently with enzyme-inducing anticonvulsants to use an additional contraceptive method to protect against unwanted pregnancy. Higher dosages of oral contraceptives (e.g., ethinyl estradiol >= 50 mcg/day) or a second contraceptive method are typically suggested if women use an enzyme-inducing anti-epileptic drug or a barbiturate. Proper intake of folic acid should also be ensured.
Fludrocortisone: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Flunisolide: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Fluoxetine: (Minor) Estrogens are partially metabolized by CYP3A4. Drugs that inhibit CYP3A4 such as fluoxetine may increase plasma concentrations of estrogens and cause estrogen-related side effects such as nausea and breast tenderness. Patients receiving estrogens should be monitored for an increase in adverse events.
Fluticasone: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Fluticasone; Salmeterol: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Fluticasone; Umeclidinium; Vilanterol: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Fluticasone; Vilanterol: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Fondaparinux: (Moderate) Methyltestosterone can increase the effects of anticoagulants through reduction of procoagulant factor. Patients receiving oral anticoagulant therapy should be closely monitored, especially when methyltestosterone treatment is initiated or discontinued.
Formoterol; Mometasone: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Fosamprenavir: (Major) Avoid concurrent use of contraceptives and hormone replacement therapies (HRT) containing estrogens with fosamprenavir. Alternative methods of non-hormonal contraception are recommended. Concomitant use may decrease the efficacy of both the estrogen and fosamprenavir, which could lead to loss of virologic response and possible viral resistance. Additionally, there is an increased risk of transaminase elevations during concurrent use of estrogens and fosamprenavir boosted with ritonavir.
Fosphenytoin: (Major) Women taking both estrogens and phenytoin/fosphenytoin should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed phenytoin/fosphenytoin. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of phenytoin/fosphenytoin. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on phenytoin/fosphenytoin, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and phenytoin/fosphenytoin is a strong CYP3A4 inducer. Concurrent administration may increase estrogen elimination.
Glimepiride: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Glipizide: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Glipizide; Metformin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Monitor blood glucose periodically in patients on metformin for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Glyburide: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Glyburide; Metformin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Monitor blood glucose periodically in patients on metformin for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Goserelin: (Major) Avoid concurrent use of androgens with gonadotropin releasing hormone (GnRH) agonists such as goserelin. Goserelin inhibits steroidogenesis; concomitant use with androgens may counteract this therapeutic effect.
Grapefruit juice: (Minor) Grapefruit juice has been reported to decrease the metabolism of some estrogens. Grapefruit juice contains a compound that inhibits CYP3A4 in enterocytes. Estrogen levels may increase by up to 30 percent with chronic use. The clinical significance of the interaction is unknown. It is possible that estrogen induced side effects could be increased in some individuals. Patients should be advised to not significantly alter their grapefruit juice ingestion.When chronically ingesting any CYP3A4 inhibitor ( > 30 days) with estrogens, adequate diagnostic measures, including directed or random endometrial sampling when indicated by signs and symptoms of endometrial hyperplasia, should be undertaken to rule out malignancy in postmenopausal women with undiagnosed persistent or recurring abnormal genital bleeding.
Griseofulvin: (Major) Women taking both estrogens and griseofulvin should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed griseofulvin. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of griseofulvin. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on griseofulvin, with dose adjustments made based on clinical efficacy. Concurrent administration may increase estrogen elimination; the mechanism by which griseofulvin enhances estrogen elimination has not been fully elucidated.
Hemin: (Moderate) Hemin works by inhibiting aminolevulinic acid synthetase. Estrogens increase the activity of this enzyme should not be used with hemin.
Heparin: (Moderate) Methyltestosterone can increase the effects of anticoagulants through reduction of procoagulant factor. Patients receiving oral anticoagulant therapy should be closely monitored, especially when methyltestosterone treatment is initiated or discontinued.
Histrelin: (Major) Avoid concurrent use of androgens with gonadotropin releasing hormone (GnRH) agonists such as histrelin. Histrelin inhibits steroidogenesis; concomitant use with androgens may counteract this therapeutic effect.
Hyaluronidase, Recombinant; Immune Globulin: (Minor) Estrogens, when given in large systemic doses, may render tissues partially resistant to the action of hyaluronidase. Patients receiving these medications may require larger amounts of hyaluronidase for equivalent dispersing effect.
Hyaluronidase: (Minor) Estrogens, when given in large systemic doses, may render tissues partially resistant to the action of hyaluronidase. Patients receiving these medications may require larger amounts of hyaluronidase for equivalent dispersing effect.
Hydralazine: (Minor) The administration of estrogens can increase fluid retention, which increases blood pressure, thereby antagonizing the antihypertensive effects of hydralazine.
Hydralazine; Isosorbide Dinitrate, ISDN: (Minor) The administration of estrogens can increase fluid retention, which increases blood pressure, thereby antagonizing the antihypertensive effects of hydralazine.
Hydrocortisone: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Icosapent ethyl: (Moderate) Estrogens may exacerbate hypertriglyceridemia and should be discontinued or changed to alternate therapy, if possible, prior to initiation of icosapent ethyl.
Imatinib: (Minor) Estrogens are partially metabolized by CYP3A4. Drugs that inhibit CYP3A4 such as imatinib, STI-571 may increase plasma concentrations of estrogens and cause estrogen-related side effects such as nausea and breast tenderness. Patients receiving estrogens should be monitored for an increase in adverse events.
Imipramine: (Minor) Coadministration of methyltestosterone with imipramine has led to dramatic paranoia in a limited number of patients. (Minor) The oxidative metabolism of tricyclic antidepressants may be decreased by ethinyl estradiol. Increased antidepressant serum concentrations may occur. Ethinyl estradiol has been reported to intensify side effects from imipramine. Patients should be monitored for increased tricyclic antidepressant side effects if an estrogen is added. Current evidence indicates that this interaction may be related to the estrogen dosage, with larger doses (i.e., >= 50 mcg ethinyl estradiol/day) causing a more significant interaction.
Incretin Mimetics: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together.
Indinavir: (Moderate) Indinavir has been shown to decrease the metabolism of ethinyl estradiol; a similar interaction may occur with other estrogens used for hormone replacement therapy. Patients should be instructed to report any estrogen- related adverse events.
Insulin Aspart: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Insulin Aspart; Insulin Aspart Protamine: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Insulin Degludec: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Insulin Degludec; Liraglutide: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Insulin Detemir: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Insulin Glargine: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Insulin Glargine; Lixisenatide: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Insulin Glulisine: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Insulin Lispro: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Insulin Lispro; Insulin Lispro Protamine: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Insulin, Inhaled: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Insulins: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Isoniazid, INH; Pyrazinamide, PZA; Rifampin: (Major) Women taking both estrogens and rifamycins should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed rifamycins. In some cases, it may be advisable for patients to change to non-hormonal methods of birth control during rifamycin therapy. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of rifamycins. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on rifamycins, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and rifamycins are a CYP3A4 inducers. Concurrent administration may increase estrogen elimination.
Isoniazid, INH; Rifampin: (Major) Women taking both estrogens and rifamycins should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed rifamycins. In some cases, it may be advisable for patients to change to non-hormonal methods of birth control during rifamycin therapy. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of rifamycins. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on rifamycins, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and rifamycins are a CYP3A4 inducers. Concurrent administration may increase estrogen elimination.
Isophane Insulin (NPH): (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Itraconazole: (Minor) Monitor for estrogen-related side effects. Drugs that potently inhibit CYP3A4 such as certain systemic azole antifungals (e.g., itraconazole) may increase plasma concentrations of estrogens and cause estrogen-related side effects such as nausea and breast tenderness. Esterified estrogens contain a mixture of estrogenic substances, including estrone and . Estrogens are partially metabolized by CYP3A4.
Ketoconazole: (Minor) Estrogens are partially metabolized by CYP3A4. Drugs that inhibit CYP3A4 such as systemic azole antifungals (fluconazole, itraconazole, ketoconazole, miconazole, posaconazole, and voriconazole) may increase plasma concentrations of estrogens and cause estrogen-related side effects such as nausea and breast tenderness. Patients receiving estrogens should be monitored for an increase in adverse events.
Lamotrigine: (Major) A lamotrigine maintenance dose increase of up to 2-fold may be required during concomitant use of estrogen hormones. Increase the dose no more rapidly than 50 to 100 mg/day every week based on clinical response. Coadministration of an oral contraceptive containing 30 mcg of ethinyl estradiol has been observed to decrease the AUC and Cmax of lamotrigine by 52% and 39%, respectively. During the oral contraceptive pill-free week, trough lamotrigine concentrations have been observed to increase an average of 2-fold which may transiently increase the risk for lamotrigine-related adverse effects. If lamotrigine-related adverse effects consistently occur during the pill-free week, the overall lamotrigine maintenance dose may need to be reduced.
Lansoprazole; Amoxicillin; Clarithromycin: (Minor) Estrogens are partially metabolized by CYP3A4. Drugs that inhibit CYP3A4 such as clarithromycin may increase plasma concentrations of estrogens and cause estrogen-related side effects such as nausea and breast tenderness. Patients receiving estrogens should be monitored for an increase in adverse events.
Lenalidomide: (Moderate) Concomitant use of lenalidomide with estrogens may increase the risk of thrombosis in patients with multiple myeloma patients who are also receiving dexamethasone. Use lenalidomide and estrogen-containing agents with caution in these patients. Monitor for signs of thromboembolism (e.g., deep vein thrombosis, pulmonary embolism, myocardial infarction, stroke) and encourage patients to report symptoms such as shortness of breath, chest pain, or arm or leg swelling.
Letrozole: (Major) Avoid concomitant use of estrogens and letrozole. Estrogen-containing therapies may reduce the effectiveness of aromatase inhibitors, such as letrozole.
Leuprolide: (Major) Leuprolide inhibits steroidogenesis. While no drug interactions have been reported with leuprolide, therapy with androgens would be relatively contraindicated and would counteract the therapeutic effect of leuprolide.
Leuprolide; Norethindrone: (Major) Leuprolide inhibits steroidogenesis. While no drug interactions have been reported with leuprolide, therapy with androgens would be relatively contraindicated and would counteract the therapeutic effect of leuprolide.
Levoketoconazole: (Minor) Estrogens are partially metabolized by CYP3A4. Drugs that inhibit CYP3A4 such as systemic azole antifungals (fluconazole, itraconazole, ketoconazole, miconazole, posaconazole, and voriconazole) may increase plasma concentrations of estrogens and cause estrogen-related side effects such as nausea and breast tenderness. Patients receiving estrogens should be monitored for an increase in adverse events.
Levothyroxine: (Minor) The administration of estrogens can increase circulating concentrations of thyroxine-binding globulin, sex hormone-binding globulin, and cortisol-binding globulin. Increased amounts of thyroxine-binding globulin may result in a reduced clinical response to thyroid hormones. Some hypothyroid patients on estrogen may require larger doses of thyroid hormones. Monitor thyroid-stimulating hormone (TSH) level and follow the recommendation for thyroid hormone replacement.
Levothyroxine; Liothyronine (Porcine): (Minor) The administration of estrogens can increase circulating concentrations of thyroxine-binding globulin, sex hormone-binding globulin, and cortisol-binding globulin. Increased amounts of thyroxine-binding globulin may result in a reduced clinical response to thyroid hormones. Some hypothyroid patients on estrogen may require larger doses of thyroid hormones. Monitor thyroid-stimulating hormone (TSH) level and follow the recommendation for thyroid hormone replacement.
Levothyroxine; Liothyronine (Synthetic): (Minor) The administration of estrogens can increase circulating concentrations of thyroxine-binding globulin, sex hormone-binding globulin, and cortisol-binding globulin. Increased amounts of thyroxine-binding globulin may result in a reduced clinical response to thyroid hormones. Some hypothyroid patients on estrogen may require larger doses of thyroid hormones. Monitor thyroid-stimulating hormone (TSH) level and follow the recommendation for thyroid hormone replacement.
Linagliptin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Linagliptin; Metformin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Monitor blood glucose periodically in patients on metformin for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Liothyronine: (Minor) The administration of estrogens can increase circulating concentrations of thyroxine-binding globulin, sex hormone-binding globulin, and cortisol-binding globulin. Increased amounts of thyroxine-binding globulin may result in a reduced clinical response to thyroid hormones. Some hypothyroid patients on estrogen may require larger doses of thyroid hormones. Monitor thyroid-stimulating hormone (TSH) level and follow the recommendation for thyroid hormone replacement.
Liraglutide: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together.
Lixisenatide: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together.
Lonapegsomatropin: (Moderate) Somatropin can induce the activity of cytochrome-mediated metabolism of antipyrine clearance. Because estrogens are also metabolized in this way, somatropin may alter the metabolism of estrogens. In addition, growth-hormone deficient women also treated with estrogen replacement therapy require substantially more somatropin therapy to obtain comparable effects when compared to women not taking estrogen. Patients should be monitored for changes in efficacy of either drug when somatropin and estrogens are coadministered.
Lopinavir; Ritonavir: (Moderate) Ritonavir has been shown to increase the metabolism of ethinyl estradiol; a similar interaction may occur with other estrogens used for hormone replacement therapy. Patients should report any breakthrough bleeding or adverse events to their prescribers.
Lorlatinib: (Major) Women taking both estrogens and lorlatinib should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed lorlatinib. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of lorlatinib. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on lorlatinib, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and lorlatinib is a moderate CYP3A4 inducer. Concurrent administration may increase estrogen elimination.
Mavacamten: (Major) Patients taking both estrogens and mavacamten should report breakthrough vaginal bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed mavacamten. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 4 months after discontinuation of mavacamten. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on mavacamten, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A substrates and mavacamten is a moderate CYP3A inducer. Concurrent administration may increase estrogen elimination.
Meglitinides: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Metformin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Monitor blood glucose periodically in patients on metformin for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Metformin; Repaglinide: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Monitor blood glucose periodically in patients on metformin for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Metformin; Saxagliptin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Monitor blood glucose periodically in patients on metformin for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Metformin; Sitagliptin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Monitor blood glucose periodically in patients on metformin for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Methohexital: (Major) Women taking both estrogens and barbiturates should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed barbiturates. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of barbiturates. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on barbiturates, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and barbiturate are strong CYP3A4 inducers. Concurrent administration may increase estrogen elimination.
Methotrexate: (Moderate) Methyltestosterone has been associated with hepatotoxicity; caution is recommended in combining 17-alpha-alkylated androgens in combination with other medications that have potential hepatotoxic effects (e.g., methotrexate). Monitor liver function periodically; if liver function becomes abnormal or clinical symptoms (e.g., jaundice) develop, discontinue the androgen and determine the etiology. Androgen-induced jaundice is reversible whtih medication discontinuation.
Methylprednisolone: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Metreleptin: (Major) Concurrent use of metreleptin with estrogens may produce unpredictable effects, including a decrease in estrogen efficacy or an increase in estrogen-related adverse effects. Women taking both estrogens and metreleptin should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed metreleptin. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of metreleptin. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect or an increase in adverse effects while on metreleptin, with dose adjustments made based on clinical response. Estrogens are CYP3A4 substrates and metreleptin may alter the formation of CYP enzymes. Concurrent administration may increase or decrease estrogen elimination.
Metyrapone: (Moderate) A subtherapeutic response to metyrapone can be seen in patients on estrogen therapy. When metapyrone is used as a diagnostic drug for testing hypothalamic-pituitary ACTH function, the effect of estrogen may need to be considered, or, another diagnostic test chosen. If possible, consider discontinuing the use of estrogen prior to and during testing. During use for Cushing's syndrome, estrogen therapy may increase cortisol levels, which may attenuate the response to metyrapone treatment. Monitor for evidence of clinical response to treatment, and adjust treatment as clinically indicated.
Mifepristone: (Minor) Estrogens are partially metabolized by CYP3A4. Drugs that inhibit CYP3A4 such as mifepristone may increase plasma concentrations of estrogens and cause estrogen-related side effects such as nausea and breast tenderness. Patients receiving estrogens should be monitored for an increase in adverse events.
Miglitol: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Mineral Oil: (Minor) While information regarding this interaction is limited, it appears that the simultaneous oral administration of estrogens and mineral oil may decrease the oral absorption of the estrogens, resulting in lower estrogen plasma concentrations. This interaction may be more likely with the chronic administration of mineral oil, as opposed to a single dose of mineral oil used for occasional constipation. In order to avoid an interaction, it would be prudent to separate administration times, giving estrogens 1 hour before or 2 hours after the oral administration of mineral oil.
Minoxidil: (Minor) Estrogens can cause fluid retention, increasing blood pressure and thereby antagonizing the antihypertensive effects of minoxidil.
Mitapivat: (Major) Women taking both estrogens and mitapivat should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed mitapivat. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of mitapivat. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on mitapivat, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A substrates and mitapivat is a CYP3A inducer. Concurrent administration may increase estrogen elimination.
Mitotane: (Major) Advise patients taking estrogen hormones for contraception to consider an alternate or additional form of contraception, such as nonhormonal and/or barrier methods, during treatment with mitotane and after discontinuation of therapy for as long as mitotane plasma levels are detectable. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on mitotane, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A substrates and mitotane is a strong CYP3A inducer. Concurrent administration may increase estrogen elimination.
Mobocertinib: (Major) Women taking both estrogens and mobocertinib should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed mobocertinib. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of mobocertinib. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on mobocertinib, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A substrates and mobocertinib is a weak CYP3A inducer. Concurrent administration may increase estrogen elimination.
Modafinil: (Moderate) Modafinil is an inducer of CYP3A hepatic enzymes. Estrogens are metabolized by CYP3A4. A decrease in estrogen concentrations, and thus efficacy, may occur in patients taking estrogens for hormone replacement therapy. If these drugs are used together, monitor patients for a decrease in clinical effects. Dosage adjustments may be necessary.
Mometasone: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Nafarelin: (Major) Gonadotropin releasing hormone (GnRH) agonists (i.e.,nafarelin) inhibit steroidogenesis, therefore the concomitant use of these agents with androgens may counteract this therapeutic effect. Avoid concurrent use of androgens with GnRH agonists.
Nateglinide: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Nelfinavir: (Moderate) Nelfinavir has been shown to increase the metabolism of ethinyl estradiol; a similar interaction may occur with other estrogens used for hormone replacement therapy. Patients should report any breakthrough bleeding or adverse events to their prescribers.
Nevirapine: (Moderate) Women taking both estrogens and nevirapine should report breakthrough bleeding to their prescribers. Nevirapine may decrease plasma concentrations of hormonal contraceptives. However, despite lower exposures, literature suggests that use of nevirapine has no effect on pregnancy rates among HIV-infected women on combined oral contraceptives. Thus, the manufacturer states that no dose adjustments are needed when these drugs are used for contraception in combination with nevirapine. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on nevirapine, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and nevirapine is a weak CYP3A4 inducer. Concurrent administration may increase estrogen elimination.
Nirmatrelvir; Ritonavir: (Moderate) Ritonavir has been shown to increase the metabolism of ethinyl estradiol; a similar interaction may occur with other estrogens used for hormone replacement therapy. Patients should report any breakthrough bleeding or adverse events to their prescribers.
Nitroprusside: (Minor) The administration of estrogens may increase blood pressure, and thereby antagonizing the antihypertensive effects of nitroprusside.
Nortriptyline: (Minor) The oxidative metabolism of tricyclic antidepressants may be decreased by ethinyl estradiol. Increased antidepressant serum concentrations may occur. Ethinyl estradiol has been reported to intensify side effects from imipramine. Patients should be monitored for increased tricyclic antidepressant side effects if an estrogen is added. Current evidence indicates that this interaction may be related to the estrogen dosage, with larger doses (i.e., >= 50 mcg ethinyl estradiol/day) causing a more significant interaction.
Olanzapine; Fluoxetine: (Minor) Estrogens are partially metabolized by CYP3A4. Drugs that inhibit CYP3A4 such as fluoxetine may increase plasma concentrations of estrogens and cause estrogen-related side effects such as nausea and breast tenderness. Patients receiving estrogens should be monitored for an increase in adverse events.
Olopatadine; Mometasone: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Omaveloxolone: (Major) Advise patients taking estrogen hormones for contraception to consider an alternate or additional form of contraception, such as nonhormonal and/or barrier methods, during and for at least 1 month following discontinuation of omaveloxolone. Higher-dose hormonal regimens containing a minimum of 30 mcg of ethinyl estradiol or equivalent may also be considered. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on omaveloxolone, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A substrates and omaveloxolone is a CYP3A inducer. Concurrent administration may increase estrogen elimination.
Omeprazole; Amoxicillin; Rifabutin: (Major) Women taking both estrogens and rifamycins should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed rifamycins. In some cases, it may be advisable for patients to change to non-hormonal methods of birth control during rifamycin therapy. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of rifamycins. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on rifamycins, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and rifamycins are a CYP3A4 inducers. Concurrent administration may increase estrogen elimination.
Ospemifene: (Major) Ospemifene should not be used concomitantly with estrogens. The safety of concomitant use of ospemifene with estrogens or estrogen agonists/antagonists has not been studied.
Oxcarbazepine: (Major) Women taking both estrogens and oxcarbazepine should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed oxcarbazepine. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of oxcarbazepine. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on oxcarbazepine, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and oxcarbazepine is a CYP3A4 inducer. Concurrent administration has been shown to decrease the exposure of some estrogens by approximately 50%.
Pentobarbital: (Major) Women taking both estrogens and barbiturates should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed barbiturates. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of barbiturates. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on barbiturates, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and barbiturate are strong CYP3A4 inducers. Concurrent administration may increase estrogen elimination.
Pentosan: (Moderate) Methyltestosterone can increase the effects of anticoagulants through reduction of procoagulant factor. Patients receiving oral anticoagulant therapy should be closely monitored, especially when methyltestosterone treatment is initiated or discontinued.
Perphenazine; Amitriptyline: (Minor) The oxidative metabolism of tricyclic antidepressants may be decreased by ethinyl estradiol. Increased antidepressant serum concentrations may occur. Ethinyl estradiol has been reported to intensify side effects from imipramine. Patients should be monitored for increased tricyclic antidepressant side effects if an estrogen is added. Current evidence indicates that this interaction may be related to the estrogen dosage, with larger doses (i.e., >= 50 mcg ethinyl estradiol/day) causing a more significant interaction.
Pertuzumab; Trastuzumab; Hyaluronidase: (Minor) Estrogens, when given in large systemic doses, may render tissues partially resistant to the action of hyaluronidase. Patients receiving these medications may require larger amounts of hyaluronidase for equivalent dispersing effect.
Phenobarbital: (Major) Women taking both estrogens and barbiturates should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed barbiturates. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of barbiturates. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on barbiturates, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and barbiturate are strong CYP3A4 inducers. Concurrent administration may increase estrogen elimination.
Phenobarbital; Hyoscyamine; Atropine; Scopolamine: (Major) Women taking both estrogens and barbiturates should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed barbiturates. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of barbiturates. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on barbiturates, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and barbiturate are strong CYP3A4 inducers. Concurrent administration may increase estrogen elimination.
Phentermine; Topiramate: (Major) Women taking both estrogens and topiramate should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed topiramate, especially for patients receiving topiramate doses greater than 200 mg per day. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of topiramate. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on topiramate, with dose adjustments made based on clinical efficacy. Concurrent administration may increase estrogen elimination.
Phenytoin: (Major) Women taking both estrogens and phenytoin/fosphenytoin should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed phenytoin/fosphenytoin. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of phenytoin/fosphenytoin. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on phenytoin/fosphenytoin, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and phenytoin/fosphenytoin is a strong CYP3A4 inducer. Concurrent administration may increase estrogen elimination. Additionally, epileptic women taking both anticonvulsants and hormonal contraceptives may be at higher risk of folate deficiency secondary to additive effects on folate metabolism; if oral contraceptive failure occurs, the additive effects could potentially heighten the risk of neural tube defects in pregnancy.
Pioglitazone: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Pioglitazone; Glimepiride: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Pioglitazone; Metformin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Monitor blood glucose periodically in patients on metformin for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Pramlintide: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Prasterone, Dehydroepiandrosterone, DHEA (Dietary Supplements): (Moderate) Either additive or antagonistic effects could potentially occur if prasterone is combined with estrogen therapy.
Prasterone, Dehydroepiandrosterone, DHEA (FDA-approved): (Moderate) Either additive or antagonistic effects could potentially occur if prasterone is combined with estrogen therapy.
Prednisolone: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Prednisone: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Primidone: (Major) Women taking both estrogens and barbiturates should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed barbiturates. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of barbiturates. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on barbiturates, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and barbiturate are strong CYP3A4 inducers. Concurrent administration may increase estrogen elimination.
Protriptyline: (Minor) The oxidative metabolism of tricyclic antidepressants may be decreased by ethinyl estradiol. Increased antidepressant serum concentrations may occur. Ethinyl estradiol has been reported to intensify side effects from imipramine. Patients should be monitored for increased tricyclic antidepressant side effects if an estrogen is added. Current evidence indicates that this interaction may be related to the estrogen dosage, with larger doses (i.e., >= 50 mcg ethinyl estradiol/day) causing a more significant interaction.
Pyridoxine, Vitamin B6: (Minor) Estrogens can increase calcium absorption. Use caution in patients predisposed to hypercalcemia or nephrolithiasis.
Raloxifene: (Major) The concurrent use of raloxifene and systemic estrogens or other hormone replacement therapy has not been studied in prospective clinical trials. Thus, concomitant use of raloxifene with systemic estrogens is not recommended.
Regular Insulin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Regular Insulin; Isophane Insulin (NPH): (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Repaglinide: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Repotrectinib: (Major) Advise patients taking estrogen hormones for contraception to consider an alternate or additional form of contraception, such as nonhormonal and/or barrier methods, during and for at least 1 month following discontinuation of repotrectinib. Higher-dose hormonal regimens containing a minimum of 30 mcg of ethinyl estradiol or equivalent may also be considered. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on repotrectinib, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A substrates and repotrectinib is a moderate CYP3A inducer. Concurrent administration may increase estrogen elimination.
Ribociclib; Letrozole: (Major) Avoid concomitant use of estrogens and letrozole. Estrogen-containing therapies may reduce the effectiveness of aromatase inhibitors, such as letrozole.
Rifabutin: (Major) Women taking both estrogens and rifamycins should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed rifamycins. In some cases, it may be advisable for patients to change to non-hormonal methods of birth control during rifamycin therapy. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of rifamycins. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on rifamycins, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and rifamycins are a CYP3A4 inducers. Concurrent administration may increase estrogen elimination.
Rifampin: (Major) Women taking both estrogens and rifamycins should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed rifamycins. In some cases, it may be advisable for patients to change to non-hormonal methods of birth control during rifamycin therapy. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of rifamycins. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on rifamycins, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and rifamycins are a CYP3A4 inducers. Concurrent administration may increase estrogen elimination.
Rifamycins: (Major) Women taking both estrogens and rifamycins should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed rifamycins. In some cases, it may be advisable for patients to change to non-hormonal methods of birth control during rifamycin therapy. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of rifamycins. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on rifamycins, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and rifamycins are a CYP3A4 inducers. Concurrent administration may increase estrogen elimination.
Rifapentine: (Major) Women taking both estrogens and rifamycins should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed rifamycins. In some cases, it may be advisable for patients to change to non-hormonal methods of birth control during rifamycin therapy. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of rifamycins. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on rifamycins, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and rifamycins are a CYP3A4 inducers. Concurrent administration may increase estrogen elimination.
Ritonavir: (Moderate) Ritonavir has been shown to increase the metabolism of ethinyl estradiol; a similar interaction may occur with other estrogens used for hormone replacement therapy. Patients should report any breakthrough bleeding or adverse events to their prescribers.
Rituximab; Hyaluronidase: (Minor) Estrogens, when given in large systemic doses, may render tissues partially resistant to the action of hyaluronidase. Patients receiving these medications may require larger amounts of hyaluronidase for equivalent dispersing effect.
Rivaroxaban: (Moderate) Methyltestosterone can increase the effects of anticoagulants through reduction of procoagulant factor. Patients receiving oral anticoagulant therapy should be closely monitored, especially when methyltestosterone treatment is initiated or discontinued.
Ropinirole: (Moderate) Concomitant use of ropinirole and higher doses of estrogens may increase the exposure of ropinirole. A dose adjustment of ropinirole may be needed when estrogen therapy is initiated or discontinued. Some estrogens have reduced ropinirole oral clearance by 36%.
Rosiglitazone: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Saquinavir: (Moderate) Saquinavir has been shown to increase the metabolism of ethinyl estradiol; a similar interaction may occur with other estrogens used for hormone replacement therapy. Patients should report any breakthrough bleeding or adverse events to their prescribers.
Saw Palmetto, Serenoa repens: (Major) Drug interactions with Saw palmetto, Serenoa repens have not been specifically studied or reported. Saw palmetto extracts appear to have antiandrogenic effects. The antiandrogenic effects of Saw palmetto, Serenoa repens would be expected to antagonize the actions of androgens; it would seem illogical for patients taking androgens to use this herbal supplement.
Saxagliptin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Secobarbital: (Major) Women taking both estrogens and barbiturates should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed barbiturates. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of barbiturates. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on barbiturates, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and barbiturate are strong CYP3A4 inducers. Concurrent administration may increase estrogen elimination.
Semaglutide: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together.
SGLT2 Inhibitors: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Sitagliptin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Somapacitan: (Moderate) Patients receiving oral estrogen replacement may require higher somapacitan dosages. Oral estrogens may reduce the serum insulin-like growth factor 1 (IGF-1) response to somapacitan. Women receiving oral estrogen replacement should receive a higher initial somapacitan dose; initiate somapacitan therapy at a dose of 2 mg once weekly. Titrate doses after that as recommended.
Somatrogon: (Moderate) Monitor for a decrease in somatrogon efficacy during concurrent use of somatrogon and oral estrogens; a higher somatrogon dose may be needed. Oral estrogens may reduce the serum insulin-like growth factor 1 (IGF-1) response to somatrogon.
Somatropin, rh-GH: (Moderate) Somatropin can induce the activity of cytochrome-mediated metabolism of antipyrine clearance. Because estrogens are also metabolized in this way, somatropin may alter the metabolism of estrogens. In addition, growth-hormone deficient women also treated with estrogen replacement therapy require substantially more somatropin therapy to obtain comparable effects when compared to women not taking estrogen. Patients should be monitored for changes in efficacy of either drug when somatropin and estrogens are coadministered.
Sotagliflozin: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Sotorasib: (Major) Women taking both estrogens and sotorasib should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed sotorasib. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of sotorasib. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on sotorasib, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and sotorasib is a moderate CYP3A4 inducer. Concurrent administration may increase estrogen elimination.
Soy Isoflavones: (Moderate) Theoretically, the soy isoflavones may compete with or have additive effects with, drugs that have estrogenic activity or which selectively modulate estrogen receptors. The soy isoflavones have a diphenolic structure similar to that of the potent synthetic and natural estrogens. All isoflavones are competitive ligands of in vitro estrogen receptor assays and appear to function as selective estrogen receptor modifiers (SERMs). However, the estrogenic potencies of the soy isoflavones genistein and daidzein are much weaker than that of native estradiol. Soy isoflavones should be used with caution in patients taking estrogens, including combined hormonal and oral contraceptives, since the effects of combining soy isoflavone dietary supplements with estrogens are not clear. (Moderate) Theoretically, the soy isoflavones may counteract the activity of the androgens.
St. John's Wort, Hypericum perforatum: (Major) Women taking both estrogens and St. John's Wort should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed St. John's Wort. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of St. John's Wort. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on St. John's Wort, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and St. John's Wort is a strong CYP3A4 inducer. Concurrent administration may increase estrogen elimination.
Sulfonylureas: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Tazemetostat: (Major) Women taking both estrogens and tazemetostat should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed tazemetostat. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 6 months after discontinuation of tazemetostat. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on tazemetostat, with dose adjustments made based on clinical efficacy. Estrogens are CYP3A4 substrates and tazemetostat is a CYP3A4 inducer. Concurrent administration may increase estrogen elimination.
Thiazolidinediones: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together. (Minor) Patients receiving antidiabetic agents should be periodically monitored for changes in glycemic control when hormone therapy is instituted or discontinued. Estrogens can decrease the hypoglycemic effects of antidiabetic agents by impairing glucose tolerance. Changes in glucose tolerance occur more commonly in patients receiving 50 mcg or more of ethinyl estradiol (or equivalent) per day in combined oral contraceptives (COCs), which are not commonly used in practice since the marketing of lower dose COCs, patches, injections and rings. The presence or absence of a concomitant progestin may influence the significance of any hormonal effect on glucose homeostasis.
Thyroid hormones: (Minor) The administration of estrogens can increase circulating concentrations of thyroxine-binding globulin, sex hormone-binding globulin, and cortisol-binding globulin. Increased amounts of thyroxine-binding globulin may result in a reduced clinical response to thyroid hormones. Some hypothyroid patients on estrogen may require larger doses of thyroid hormones. Monitor thyroid-stimulating hormone (TSH) level and follow the recommendation for thyroid hormone replacement.
Tipranavir: (Moderate) Tipranavir increases the metabolism of estrogens. Women using estrogens for hormone replacement therapy should be monitored for signs of estrogen deficiency.
Tirzepatide: (Moderate) Changes in insulin sensitivity or glycemic control may occur in patients treated with androgens. In diabetic patients, the metabolic effects of androgens may decrease blood glucose and, therefore, may decrease antidiabetic agent dosage requirements. Monitor blood glucose and HbA1C when these drugs are used together.
Tobacco: (Major) Advise patients to avoid cigarette smoking while taking estrogen hormones. Cigarette smoking increases the risk of serious cardiovascular events, such as myocardial infarction, stroke, deep vein thrombosis, and pulmonary embolism. Combined hormonal contraceptives are contraindicated in females who are over 35 years of age and smoke.
Topiramate: (Major) Women taking both estrogens and topiramate should report breakthrough bleeding to their prescribers. If used for contraception, an alternate or additional form of contraception should be considered in patients prescribed topiramate, especially for patients receiving topiramate doses greater than 200 mg per day. Higher-dose hormonal regimens may be indicated where acceptable or applicable. The alternative or additional contraceptive agent may need to be continued for 1 month after discontinuation of topiramate. Patients taking these hormones for other indications may need to be monitored for reduced clinical effect while on topiramate, with dose adjustments made based on clinical efficacy. Concurrent administration may increase estrogen elimination.
Toremifene: (Major) The use of estrogens, including oral contraceptives, with toremifene is controversial and is generally considered contraindicated in most, but not all, circumstances. The use of estrogens may aggravate conditions for which toremifene is prescribed. Toremifene exerts its effects by blocking estrogen receptors. Since toremifene and estrogens are pharmacological opposites, they are not usually given concurrently.
Trandolapril; Verapamil: (Minor) Estrogens are partially metabolized by CYP3A4. Drugs that inhibit CYP3A4 such as verapamil may increase plasma concentrations of estrogens and cause estrogen-related side effects such as nausea and breast tenderness. Patients receiving estrogens should be monitored for an increase in adverse events.
Tranexamic Acid: (Contraindicated) Tranexamic acid is contraindicated in women who are using combination hormonal contraception containing an estrogen and a progestin. Use with other estrogens is also not recommended. Estrogens increase the hepatic synthesis of prothrombin and factors VII, VIII, IX, and X and decrease antithrombin III; estrogens also increase norepinephrine-induced platelet aggregability. A positive relationship of estrogens to thromboembolic disease has been demonstrated, and the US FDA has suggested class labeling of combined OCs and non-oral combination contraceptives in accordance with this data. OC products containing >= 50-mcg ethinyl estradiol are associated with the greatest risk of thromboembolic complications. Therefore, do not coadminister estrogens, combined hormonal oral contraceptives, or non-oral combination contraceptives together with tranexamic acid. Tranexamic acid is an antifibrinolytic agent, and concomitant use can further exacerbate the thrombotic risk associated with these estrogen-containing hormonal products; in post-market use of tranexamic acid, cases of thromboembolic events have been reported, with cases occurring in those patients concomitantly receiving combined hormonal contraceptives containing both an estrogen and a progestin.
Trastuzumab; Hyaluronidase: (Minor) Estrogens, when given in large systemic doses, may render tissues partially resistant to the action of hyaluronidase. Patients receiving these medications may require larger amounts of hyaluronidase for equivalent dispersing effect.
Triamcinolone: (Moderate) Monitor for corticosteroid-related adverse events if corticosteroids are used with estrogens. Concurrent use may increase the exposure of corticosteroids. Estrogens may decrease the hepatic clearance of corticosteroids thereby increasing their effect.
Tricyclic antidepressants: (Minor) The oxidative metabolism of tricyclic antidepressants may be decreased by ethinyl estradiol. Increased antidepressant serum concentrations may occur. Ethinyl estradiol has been reported to intensify side effects from imipramine. Patients should be monitored for increased tricyclic antidepressant side effects if an estrogen is added. Current evidence indicates that this interaction may be related to the estrogen dosage, with larger doses (i.e., >= 50 mcg ethinyl estradiol/day) causing a more significant interaction.
Trimipramine: (Minor) The oxidative metabolism of tricyclic antidepressants may be decreased by ethinyl estradiol. Increased antidepressant serum concentrations may occur. Ethinyl estradiol has been reported to intensify side effects from imipramine. Patients should be monitored for increased tricyclic antidepressant side effects if an estrogen is added. Current evidence indicates that this interaction may be related to the estrogen dosage, with larger doses (i.e., >= 50 mcg ethinyl estradiol/day) causing a more significant interaction.
Triptorelin: (Major) Gonadotropin releasing hormone (GnRH) agonists (i.e.,triptorelin) inhibit steroidogenesis, therefore the concomitant use of these agents with androgens may counteract this therapeutic effect. Avoid concurrent use of androgens with GnRH agonists.
Ursodeoxycholic Acid, Ursodiol: (Minor) Estrogens and combined hormonal and oral contraceptives increase hepatic cholesterol secretion, and encourage cholesterol gallstone formation, and hence may counteract the effectiveness of ursodeoxycholic acid, ursodiol.
Valproic Acid, Divalproex Sodium: (Moderate) Monitor serum valproic acid concentrations and patient clinical response when adding or discontinuing estrogen-containing therapy. Estrogen may increase the clearance of valproic acid, possibly leading to decreased efficacy of valproic acid and increased seizure frequency.
Verapamil: (Minor) Estrogens are partially metabolized by CYP3A4. Drugs that inhibit CYP3A4 such as verapamil may increase plasma concentrations of estrogens and cause estrogen-related side effects such as nausea and breast tenderness. Patients receiving estrogens should be monitored for an increase in adverse events.
Vonoprazan; Amoxicillin; Clarithromycin: (Minor) Estrogens are partially metabolized by CYP3A4. Drugs that inhibit CYP3A4 such as clarithromycin may increase plasma concentrations of estrogens and cause estrogen-related side effects such as nausea and breast tenderness. Patients receiving estrogens should be monitored for an increase in adverse events.
Warfarin: (Major) Estrogen-based hormone replacement therapies and contraceptive methods are generally contraindicated in patients with thromboembolic risk. However, per ACOG guidelines, in select patients the benefits of such contraception may outweigh the risks, as long as appropriate anticoagulant therapy is utilized. Combined oral contraceptives (COCs) may inhibit CYP3A4 and CYP1A2, which can rarely influence warfarin pharmacokinetics and the INR value. Isolated case reports have noted altered responses to warfarin in patients receiving combined hormonal contraceptives. Estrogens increase the hepatic synthesis of prothrombin and factors VII, VIII, IX, and X and decrease antithrombin III; estrogens also increase norepinephrine-induced platelet aggregability. A positive relationship of estrogen-containing OCs to thromboembolic disease has been demonstrated. OC products containing 50-mcg or more of ethinyl estradiol are associated with the greatest risk of thromboembolic complications. The addition of certain progestins may influence thromboembolic risks. A positive relationship between estrogen-based HRT and the risk of thromboembolic disease has also been demonstrated in the Women's Health Initiative Trials. Estrogen-based HRT products are generally contraindicated in patients with a current or past history of stroke, cerebrovascular disease, coronary artery disease, coronary thrombosis, thrombophlebitis, thromboembolic disease (including pulmonary embolism and DVT), or valvular heart disease with complications. If concurrent use of an estrogen-based product cannot be avoided, carefully monitor for signs and symptoms of thromboembolic complications. If thromboembolic events occur, discontinue the HRT regimen. Estrogen-based HRT is generally not expected to significantly alter the INR or to affect the metabolism of warfarin. Dosage adjustment of warfarin in a woman taking HRT should be based on the prothrombin time or INR value. (Moderate) Methyltestosterone can increase the effects of anticoagulants through reduction of procoagulant factor. Patients receiving oral anticoagulant therapy should be closely monitored, especially when methyltestosterone treatment is initiated or discontinued.
Zafirlukast: (Minor) Estrogens are partially metabolized by CYP3A4. Drugs that inhibit CYP3A4 such as zafirlukast may increase plasma concentrations of estrogens and cause estrogen-related side effects such as nausea and breast tenderness. Patients receiving estrogens should be monitored for an increase in adverse events.
The following discussion of mechanism of action refers to the effects of both esterified estrogens and methyltestosterone in menopausal females. Clinicians may wish to refer to the separate monographs for each of the components of this combination in order to learn about the multiple mechanisms of action of these hormones in both sexes.
-Esterified estrogens: Esterified estrogens elicit all of the actions of endogenous estrogens. Estrogens are responsible for the growth and development of female sex organs and the maintenance of sex characteristics including growth of axillary and pubic hair, and shaping of body contours and skeleton. At the cellular level, estrogens increase cervical secretions, cause proliferation of the endometrium, and increase uterine tone. Estrogens have a weak anabolic effect and also can affect bone calcium deposition and accelerate epiphysial closure. Estrogens appear to prevent osteoporosis associated with the onset of menopause; they generally do not reverse bone density loss that has already developed. Estrogens generally have a favorable effect on blood lipids, reducing LDL- and increasing HDL-cholesterol concentrations on average, by 15%. Serum triglycerides increase with estrogen administration. Estrogens increase the rate of synthesis of many proteins, including thyroid binding globulin and several clotting factors. Estrogens reduce levels of antithrombin III, and increase platelet aggregation. Estrogens also enhance sodium and fluid retention.
-Methyltestosterone: Testosterone and other androgens play an important role in female sexual health; they are normally secreted in small amounts by the ovary and the adrenal cortex in the pre-menopausal female. The exact role(s) of androgens in female sexual health are not fully understood. Androgen peak concentrations in the plasma correlate with the peaks of plasma estrogens at various stages of the menstrual cycle. Disruption of normal androgen secretion in pre-menopausal women may result in menstrual abnormalities. With menopause, declining natural testosterone secretion may contribute to menopausal symptoms. In females, androgens act by either directly binding to androgen receptors or by the aromatization of androgens to estrogens and subsequent interactions at estrogen receptors. At the cellular level in target tissues, androgens stimulate RNA polymerase, increasing protein production. Methyltestosterone appears to improve fatigue, decrease hot-flashes, and increase libido when added to estrogen replacement therapy. The addition of methyltestosterone to estrogen replacement therapy appears to offset the normally beneficial effects on cholesterol fractions imparted by estrogen therapy alone. Methyltestosterone appears to decrease total cholesterol, decrease high-density lipoproteins (HDL) and decrease apolipoprotein A1. Androgens appear to play an important role in bone modeling and remodeling and thus hormone replacement may help maintain bone density post-menopause. Androgens also increase the synthesis of several anticoagulant and fibrinolytic proteins. Methyltestosterone, when administered in excessive doses for the individual woman, may induce masculine changes, such as acne, facial hair growth and hirsutism, alopecia, lowering of voice, and enlargement of the clitoris. As in men, administration of androgens results in anabolic effects, and is often associated with weight gain and fluid retention.
Pharmacokinetics:
Esterified estrogens and methyltestosterone combinations are administered orally. The following information represents the pharmacokinetic parameters of the individual components.
-Esterified estrogens: Following oral administration, esterified estrogens are cleared by the liver more slowly than endogenous estradiol. Estrone becomes the primary circulating estrogen from esterified estrogens, and serves as a reservoir for the formation of other active estrogens. Some conversion of estrone to estradiol occurs via tissue metabolism. The estrogens are widely distributed and are strongly protein-bound, primarily to albumin and sex hormone-binding globulin (SHBG). Estrone, estradiol, and other estrogens undergo glucuronide and sulfate conjugation to a variety of minor metabolites which are excreted primarily in the urine. A portion of the conjugates are excreted into the intestine through the biliary system; hydrolysis in the gut allows for enterohepatic recirculation of the estrogens. The terminal half life of estrone is roughly 4-18.5 hours.
-Methyltestosterone: Methyltestosterone in metabolized in the liver via the same pathways as testosterone and is converted to 5alpha-dihydrotestosterone and glucuronide and sulfate conjugates. In females, a portion of testosterone gets converted to estrogen by aromatization in peripheral tissues. Methyltestosterone has an elimination half-life of 2.5-3.5 hours, somewhat longer than that of testosterone. Excretion of methyltestosterone, metabolites, and conjugates is primarily renal. Small amounts of methyltestosterone are eliminated in the feces.
-Route-Specific Pharmacokinetics
Oral Route
-Esterified estrogens: Esterified estrogens are metabolized in the GI mucosa during absorption and via first-pass effects in the liver.
-Methyltestosterone: Bioavailability is roughly 50% following oral administration. Peak serum concentrations are achieved about 2 hours after tablet administration.