The purpose of this form of therapy is to cause the development of the secondary sex characteristics of the desired sex, such as voice deepening and a masculine pattern of hair, fat, and muscle distribution. It cannot undo many of the changes produced by naturally occurring puberty, which may necessitate surgery and other treatments to reverse. The medications used for FTM therapy include, mainly, androgens (namely testosterone) and GnRH analogues.
While the therapy cannot undo the effects of a person's first puberty, developing secondary sex characteristics associated with a different sex can relieve some or all of the distress and discomfort associated with gender dysphoria, and can help the person to "pass" or be seen as their gender identity. Introducing exogenous (not internally produced) hormones into the body impacts it at every level and many patients report changes in energy levels, mood, appetite, etc. The goal of the therapy, and indeed all somatic treatments, is to provide patients with a more satisfying body that is more congruent with their gender identity.
Utilized to address hypogonadism or low testosterone levels in assigned female at birth (AFAB) individuals, fostering the development of masculine secondary sexual characteristics.
Gender affirmation in transgender men
Administered as part of gender transition to align the physical appearance with the affirmed gender, inducing changes such as facial hair growth and deepening of the voice.
Puberty suppression in gender diverse youth
In certain cases, hormonal interventions are employed to delay puberty, offering individuals more time to explore their gender identity before undergoing permanent physical changes.
These medical uses of masculinizing hormone therapy are subject to individual health considerations and are typically administered under the supervision of healthcare professionals.[4]
Due to insufficient comprehensive research, there is no consensus on the full range of risks of lengthy testosterone administration, especially as it is difficult to achieve a sufficient number of participants for results to be meaningful. Two 2019 studies indicate the potential for elevated risk of cardiovascular events. One study found that transgender men taking testosterone had an increased risk of cardiovascular events compared to cisgender women, with 11 vs. 3 cardiovascular events per 100,000 person-years, though the risk was less than that of cisgender men. Researchers were not able to control for smoking status or stressors.[6] The other study found elevated risk of heart attacks among self-identified transgender men—which persisted even after adjusting for age, diabetes mellitus, chronic kidney disease, smoking, hypertension, hypercholesterolemia, and exercise—though the study did not include data about whether the subjects were undergoing hormone therapy and did not control for stressors. The study found that transgender men have a >4-fold and 2-fold increased odds of having a myocardial infarction when compared with cisgender women and cisgender men, respectively.[7] Though it is not always the case,[2][8] testosterone for transmasculine people is often intended to be used long-term.
A 2022 review entitled The efficacy, safety, and outcomes of testosterone use among transgender men patients: A review of the literature,[9] while pointing out that more research is needed for newer therapies, concludes that:
More conventional therapies, including intramuscular injections, subcutaneous injections, and transdermal gels, have been extensively studied and show promising efficacy and outcomes with limited safety concerns.
Testosterone is metabolized by the cytochrome P450enzyme system (specifically CYP3Aisoforms) in the liver. There are certain drugs that increase or decrease the activity of cytochrome P450 enzymes and may cause increased or decreased levels of testosterone:
Enzyme inducers – May cause decreased levels of testosterone (and other sex steroid) levels: Phenobarbital and phenytoin (seizure medicines), rifampin (antibiotic), and alcohol.
Increases the effect of some oral medicines for diabetes and can cause dangerously low blood sugar levels.
Because of these interactions, it is advised that trans men make their healthcare providers aware of their hormone therapy when this is relevant to their treatment for other medical issues.
The elimination half-life of testosterone in the blood is about 70 minutes, so it is necessary to have a continuous supply of the hormone for masculinization.
A study of 45 FtM individuals randomly assigned to receive testoviron depot (intramuscular, 100 mg/10 days), testosterone gel (50 mg/day), or testosterone undecanoate (intramuscular, 1000 mg) found increased lean body mass, decreased fat mass, decreased high-density plasma lipoprotein levels, increased low-density lipoprotein levels, and increased prothrombin time. No differences were found between the different formulations of testosterone, and at week 54 all subjects were amenorrheic (no longer experiencing menstrual periods).
1 year after treatment, general life satisfaction was increased in all subjects.[20]
'Depot' drug formulations are created by mixing a substance with the drug that slows its release and prolongs the action of the drug. The two primarily used forms in the United States are the testosterone esters testosterone cypionate (Depo-Testosterone) and testosterone enanthate (Delatestryl or Xyosted) which are almost interchangeable. Testosterone enanthate is purported to be slightly better with respect to even testosterone release, but this is probably more of a concern for bodybuilders who use the drugs at higher doses (250–1000 mg/week) than the replacement doses used by transgender men (50–100 mg/week). These testosterone esters are mixed with different oils, so some individuals may tolerate one better than the other. Testosterone enanthate costs more than testosterone cypionate and is more typically the one prescribed for hypogonadal males in the US. Testosterone cypionate is more popular in the US than elsewhere (especially amongst bodybuilders). Other formulations exist but are more difficult to come by in the US. A formulation of injected testosterone available in Europe and the US, testosterone undecanoate (Nebido, Aveed)[21][22] provides significantly improved testosterone delivery with far less variation outside the eugonadal range than other formulations with injections required only four times yearly. However, each quarterly dose requires an injection of 4 mL of oil which may require multiple simultaneous injections. Testosterone undecanoate is also much more expensive as it is still under patent protection. Testosterone propionate is another testosterone ester that is widely available, including in the US, Canada, and Europe, but it is very short-acting compared to the other testosterone esters and must be administered once every 2 or 3 days, and for this reason, is rarely used.
The adverse side effects of injected testosterone esters are generally associated with high peak levels in the first few days after an injection. Some side effects may be ameliorated by using a shorter dosing interval (weekly or every ten days instead of twice monthly with testosterone enanthate or testosterone cypionate). 100 mg weekly gives a much lower peak level of testosterone than does 200 mg every two weeks, while still maintaining the same total dose of androgen. This benefit must be weighed against the discomfort and inconvenience of doubling the number of injections.
Injectable forms of testosterone can cause a lung problem called pulmonary oil microembolism (POME). Symptoms of POME include cough, shortness of breath, tightening of the throat, chest pain, sweating, dizziness, and fainting.[23][24] A postmarketing analysis by the manufacturer of Aveed (testosterone undeconate injection) found that POME occurred at a rate of less than 1% per injection per year for Aveed.[25]
Injected testosterone esters should be started at a low dose and titrated upwards based on trough levels (blood levels drawn just before your next shot). A trough level of 500 ng/dL is sought. (Normal range for a cisgender man is 290 to 900 ng/dL).
Testosterone patches, creams, and gels are available. Both approximate normal physiological levels of testosterone better than the higher peaks associated with injection. Both can cause local skin irritation (more so with the patches).
Patches slowly diffuse testosterone through the skin and are replaced daily. The cost varies, as with all medication, from country to country, it is about $150/month in the US, and about €60 in Germany. Transdermal testosterone has the advantage of delivering a consistent supply of hormones over a given period and having a simple method of diffusion.[27]
Transdermal testosterone is available throughout the world under the brand names Andromen Forte, Androgel, Testogel and Testim. They are absorbed quickly when applied and produce a temporary drug depot in the skin which diffuses into the circulation, peaking at 4 hours and decreasing slowly over the rest of the day. The cost varies, as with all medication, from country to country, from as little as $50/month to about $280/month.
Transdermal testosterone poses a risk of inadvertent exposure to others who come in contact with the patient's skin. This is most important for patients whose intimate partners are pregnant or those who are parents of young children as both of these groups are more vulnerable to the masculinizing effects of androgens. Case reports of significant virilization of young children after exposure to topical androgen preparations (both prescription and 'supplement' products) used by their caregivers demonstrates this very real risk, the same principle also applies to estrogens.[28]
Implants, as subcutaneous pellets, can be used to deliver testosterone (brand name Testopel). 6 to 12 pellets are inserted under the skin every three months. This must be done in a physician's office, but is a relatively minor procedure done under local anesthetic. Pellets cost about $60 each, so the cost is greater than injected testosterone when the cost of the physician visit and procedure are included. The primary advantages of Testopel are that it gives a much more constant blood level of testosterone yet requires attention only four times yearly.
Oral testosterone is provided exclusively as testosterone undecanoate. It is available in Europe and Canada, but not in the US. Once absorbed from the gastrointestinal tract, testosterone is shunted (at very high blood levels) to the liver where it can cause liver damage (albeit very rarely) and worsens some of the adverse effects of testosterone, like lower HDL cholesterol. In addition, the first-pass metabolism of the liver also may result in testosterone levels too low to provide satisfactory masculinization and suppress menses. Because of the short terminal half-life of testosterone, oral testosterone undecanoate must be administered two to four times per day, preferably with food (which improves its absorption).
In 2003, the FDA approved a buccal form of testosterone (Striant). Sublingual testosterone can also be made by some compounding pharmacies. Cost for Striant is greater than other formulations (US$180–210/month). Testosterone is absorbed through the oral mucosa and avoids the first-pass metabolism in the liver which is the cause of many of the adverse effects of oral testosterone undecanoate. The lozenges can cause gum irritation, taste changes, and headache but most side effects diminish after two weeks. The lozenge is 'mucoadhesive' and must be applied twice daily.
Syntheticandrogens/anabolic steroids (AAS), like nandrolone (as an ester like nandrolone decanoate or nandrolone phenylpropionate), are agonists of the androgen receptor (AR) similarly to testosterone but are not usually used in HRT for transgender men or for androgen replacement therapy (ART) in cisgender men. However, they can be used in place of testosterone with similar effects, and can have certain advantages like less or no local potentiation in so-called androgenic tissues that express 5α-reductase like the skin and hair follicles (which results in a reduced rate of skin and hair-related side effects like excessive body hair growth and scalp hair loss), although this can also be disadvantageous in certain aspects of masculinization like facial hair growth and normal body hair growth). Although many AAS are not potentiated in androgenic tissues, they have similar effects to testosterone in other tissues like bone, muscle, fat, and the voice box. Also, many AAS, like nandrolone esters, are aromatized into estrogens to a greatly reduced extent relative to testosterone or not at all, and for this reason, are associated with reduced or no estrogenic effects (e.g., gynecomastia). AAS that are 17α-alkylated like methyltestosterone, oxandrolone, and stanozolol are orally active but carry a high risk of liver damage, whereas AAS that are not 17α-alkylated, like nandrolone esters, must be administered by intramuscular injection (via which they act as long-lasting depots similarly to testosterone esters) but have no more risk of liver damage than does testosterone.
For the sake of clarification, the term "anabolic–androgenic steroid" is essentially synonymous with "androgen" (or with "anabolic steroid"), and that natural androgens like testosterone are also AAS. These drugs all share the same core mechanism of action of acting as agonists of the AR and have similar effects, although their potency, pharmacokinetics, oral activity, ratio of anabolic to androgenic effects (due to differing capacities to be locally metabolized and potentiated by 5α-reductase), capacity for aromatization (i.e., conversion into an estrogen), and potential for liver damage may all differ.
Dihydrotestosterone (DHT) (referred to as androstanolone or stanolone when used medically) can also be used in place of testosterone as an androgen. The availability of DHT is limited; it is not available in the United States or Canada, for instance, but it is available in certain European countries, including the United Kingdom, France, Spain, Belgium, Italy, and Luxembourg.[29] DHT is available in formulations including topical gel, buccal or sublingual tablets, and as esters in oil for intramuscular injection.[30] Relative to testosterone, and similarly to many synthetic AAS, DHT has the potential advantages of not being locally potentiated in so-called androgenic tissues that express 5α-reductase (as DHT is already 5α-reduced) and of not being aromatized into an estrogen (it is not a substrate for aromatase).
In adolescents, GnRH analogues such as leuprorelin can be used to suspend the advance of sex steroid induced, inappropriate pubertal changes for a period without inducing any changes in the gender-appropriate direction. GnRH analogues work by initially overstimulating the pituitary gland then rapidly desensitizing it to the effects of GnRH. Over a period of weeks, gonadal androgen production is greatly reduced.
The WPATH permits GnRH from Tanner stage 2. The sex steroids do have important other functions.[which?] The high cost of GnRH analogues is often a significant factor.
Progestogens can be used to control menstruation in transgender men. Depotmedroxyprogesterone acetate (DMPA) may be injected every three months just as it is used for contraception. Generally after the first cycle, menses are greatly reduced or eliminated. This may be useful for transgender men prior to initiation of testosterone therapy.
In those who have not yet started or completed epiphyseal closure, growth hormone can be administered, potentially in conjunction with an aromatase inhibitor or a GnRH analogue, to increase final height.
Change in body odor – less sweet and musky, more metallic and acrid.
If severe odor is a problem, an antibacterial soap like chlorhexidine may be used in the armpits when showering. After 1–2 weeks of daily use, a noticeable decrease in odor should occur.
Acne: generally worse the first few years of testosterone therapy (mimicking a second puberty). Can be treated with standard acne therapy. Initial treatment is with increased cleansing (at least twice daily) with an anti-acne or oil reducing scrub. If this doesn't work, additional therapy may be prescribed by a physician.
Some physicians see acne as a contraindication to increasing testosterone dose.
The action of testosterone on hair follicles is mainly due to the more potent androgen, dihydrotestosterone, DHT.
With androgen therapy, genetics primarily determines how much hair will develop (and where) as well as whether male pattern baldness will develop.
Testosterone is converted (within the cells of the hair follicle's dermal papilla) by 5α-reductase to DHT. There are two forms of this enzyme: type 1 and 2. However, type 2 is the form that is most important to the development of male pattern hair loss. Males with congenital 5α-reductase type 2 deficiency (but functional 5α-reductase type 1) never develop male-pattern hair loss.
Facial changes develop gradually over time, and sexual dimorphism (physical difference between the sexes) tends to increase with age. Within a population of similar body size and ethnicity:
Brow: Males tend to develop heavier bony brows than females, thus HRT results in a more prominent brow.
Cheeks: Female cheeks tend to be fuller and more rounded. Under the influence of estrogen, fat is deposited beneath the skin and overall facial and body contours become softer. This is reversed by androgens, resulting in a male-type fat distribution after hormone therapy.
Nose: The tips of the nasal bones tend to grow more in males than females, creating a larger (longer or wider) nose. Thus, androgens result in the development of the nose.
Jaw: The jaw in males tends to grow wider and more deeply sculptured than in females, thus the jaw widens under androgens.
Larynx: At puberty, the bones and cartilage of the voicebox tend to enlarge less in females than males. In most males, the larynx becomes visible as a bony "Adam's apple," which is developed in transgender men under hormone therapy.
Lips: Females, tend to have thicker, fleshier lips than males of the same size due to estrogen. Thus, after being administered androgens, transgender men may have a fat redistribution that results in smaller lips.
Menses should cease within 5 months of testosterone therapy (often sooner). If bleeding continues past 5 months, transgender men are strongly encouraged to see a gynecologist. A retrospective chart review of 74 menstruating individuals treated with intramuscular injected testosterone found that 4 stopped after the first shot, 37 stopped within 6 months, 24 stopped after 6 months, and 9 required additional progesterone therapy. The time to menstrual cessation was individualized, with only a small correlation to testosterone dosage.[37]
Clitoromegaly occurs, and frequently reaches its apex within 2–3 years of therapy. Sizes generally range from 3–8 cm with 4–5 cm being about average. This is genetically determined, but some physicians advocate topical clitoral testosterone as an adjunct to growth before metoidioplasty. However, this testosterone is absorbed and should be calculated into one's total regimen.
After long-term androgen therapy, ovaries may develop polycystic ovary syndrome (PCOS) morphology, as both PCOS and transgender men there is an up-regulation of testosterone receptors in the ovaries. Untreated PCOS is associated with a possibly increased risk of endometrial cancer as well as decreased fertility.
It is unknown whether the risk of ovarian cancer is increased, decreased or unchanged in transgender men compared to women. It is unlikely to be determined in the near future because ovarian cancer is a relatively rare disease and the population of transgender men is too small to do the appropriate study. However, it has been recommended by some physicians that transgender men have an oophorectomy within 2–5 years of starting androgen therapy due to the possible increased risk. (Note: Testosterone dose can frequently be decreased after oophorectomy.)
The risk of endometrial cancer is similarly unknown. A large multicenter study along with review of previous studies, noted no increased prevalence of endometrial hyperplasia or malignancy in transgender men undergoing hysterectomy. However while the endometrial linings in these studies were noted to be thin, they remained histologically active.[38]
Growth of prostate tissue has been documented in transmasculine individuals on testosterone therapy.[39][40]
Frequently the first sign of endometrial cancer is bleeding in post-menopausal women. Transgender men who have any bleeding after the cessation of menses with androgen therapy should be evaluated for age appropriate causes of abnormal uterine bleeding as per cisgender female guidelines.[38]
Some transgender men report a decrease in breast size with androgen therapy. However, no morphological changes were found when this was studied and likely it is due to loss of fat in the breasts.
Androgen therapy (and suppression of estrogen production) may cause vaginal atrophy and dryness, which may result in dyspareunia (painful vaginal intercourse). This can be alleviated with topical estrogen cream.
Most transgender men report a significantly increased libido. Some report that this decreases somewhat after several years on testosterone.
While testosterone decreases ovulation, it is not an approved form of contraception; transgender men who engage in sex which places them at risk for pregnancy should be counseled on utilizing concomitant contraception. All contraceptive methods are acceptable for use.[41]
As the age at which transgender people begin therapy decreases, retention of reproductive potential may become more important to some.
If a transgender man has not undergone hysterectomy and oophorectomy, he may regain fertility on cessation of testosterone. With the ovarian changes of long-term androgen therapy, however, it may require months of cessation of testosterone and possibly assistive reproductive technology to become pregnant. Testosterone must be withheld for the duration of pregnancy.
If a transgender man is planning on having a hysterectomy/oophorectomy, future reproduction may still be preserved by:
Oocyte banking – hormonal stimulation to 'hyper-ovulate' with transvaginal oocyte harvest for freezing. Previously using the "slow-freezing" cryopreservation method there were very poor survival rates of banked oocytes. However, the advent of vitrification, a rapid freezing process, has made oocyte cryopreservation a viable option for fertility preservation. It allows the possibility for eggs to later be fertilized and be placed in a surrogate, as opposed to a transgender man having to carry the pregnancy himself.
Embryo banking – oocyte harvest as above with immediate fertilization and banking of the embryo. The sperm donor must be chosen before oophorectomy. Allows the possibility for embryos to later be placed in a surrogate, as opposed to a transgender man having to carry the pregnancy himself.
Ovarian tissue banking – Ovarian tissue is frozen after oophorectomy. Even after long-term androgen therapy, ovaries usually retain usable follicles. Eventual use of frozen ovaries will require replantation into the transgender man for stimulation and harvest, but may eventually be possible in a lab as techniques for tissue culture improve. This option does not usually allow for placement into a surrogate as it may require the use of immunosuppressants on the part of the surrogate.
Headaches: Pre-existing migraine headaches can be significantly worsened with androgen therapy. Headaches can also become problematic in men without prior headache disorders.[citation needed]
Epilepsy: some seizure disorders are androgen-dependent. These may be worsened or (very rarely) unmasked with androgen therapy.[citation needed]
Sleep deprivation worsens almost all seizure disorders, so concurrent obstructive sleep apnea caused or worsened by androgen therapy may also be responsible.[citation needed]
Recent studies have found that cross-hormone therapy in trans men results in an increase in brain volume up to male proportions.[42]
The psychological changes are harder to define, since HRT is usually the first physical action that takes place when transitioning. This fact alone has a significant psychological impact, which is hard to distinguish from hormonally induced changes. Most trans men report an increase of energy and an increased sex drive. Many also report feeling more confident.
While a high level of testosterone is often associated[how?] with an increase in aggression, this is not a noticeable effect in most trans men. HRT doses of testosterone are much lower than the typical doses taken by steroid-using athletes, and create testosterone levels comparable to those of most cisgender men. These levels of testosterone have not been proven to cause more aggression than comparable levels of estrogen.[citation needed]
Some transgender men report mood swings, increased anger, and increased aggressiveness after starting androgen therapy. Studies are limited and small scale, however, based on self reporting over a short period of time (7 months). In a study by Motta et al., trans men also reported better anger control.[43] Many transgender men, however, report improved mood, decreased emotional lability, and a lessening of anger and aggression.[36]
In cisgender men, testosterone levels that are either significantly above or below normal are associated with increase cardiovascular risk. This may be causative or simply a correlation.
A single retrospective study in the medical literature of 293 trans men treated with testosterone (range of 2 months to 41 years) by the Amsterdam Gender Dysphoria Clinic from 1975 to 1994 showed no increase in cardiovascular mortality or morbidity when compared with the general female Dutch population. (As with all scientific studies, this does not conclusively prove that no causal link exists. A small to moderate detrimental effect remains a possibility, though a very large effect is more unlikely.)
Androgen therapy can adversely affect the blood lipid profile by causing decreases in HDL (good) cholesterol, increases in LDL (bad) cholesterol, and increases in triglycerides.
Androgen therapy redistributes the fat toward abdominal obesity, which is associated with increased cardiovascular risk rather than fat carried on the buttocks and hips.
Androgen therapy can cause weight gain and decreased insulin sensitivity (perhaps worsening a predisposition to develop Type II diabetes).
Androgen therapy effects are not all negative, however. Acutely it causes dilation of the coronary arteries, and in men with testosterone levels within the normal physiological range, higher levels are actually associated with a slight decrease in cardiovascular disease.
Supra-physiological levels of androgens (generally due to abuse) are associated with significantly increased risks of strokes and heart attacks (even in the young).
Cardiovascular risk factors are more than additive. (If high blood pressure is worth 10 and smoking is worth 10, together they are worth more than 20.) So for transgender men, the addition of risk with androgen therapy makes improving modifiable risk factors more important.
The most important modifiable risk factor for many men is smoking.
In pre-clinical models, testosterone XHT has been shown to lead to adverse cardiovascular effects, but adding a low-dose estrogen to that hormone therapy completely mitigated those effects.[45] (Goetz LG, et al. "Addition of Estradiol to Cross-sex Testosterone Therapy Reduces Atherosclerosis Plaque Formation in Female ApoE -/- Mice." Endocrinology. 2017)
There is a risk of liver damage and liver cancer with all testosterone formulations, but this is minimal with all forms except oral or unless very high levels are administered. However, as with any drug that carries even a small risk of liver damage, liver function tests (or at least ALT) should be periodically monitored.
Testosterone increases body weight (and increases appetite). The form that this weight gain will take depends on diet and exercise as well as genetic factors. Since testosterone has anabolic effects, gain of lean muscle mass will be easier than it previously was for transgender men. Moderate amounts of exercise will cause greater gains and will ameliorate some of the adverse effects of testosterone.
Many transgender men report an increased energy level, decreased need for sleep, and increased alertness after testosterone therapy.
In cisgender men, abnormally high or low levels of testosterone are both associated with insulin resistance (which eventually can result in Type II diabetes). So mid-normal levels of testosterone are the target for androgen therapy.
In women, increased levels of either estrogen or androgens are associated with decreased insulin sensitivity (which may predispose to diabetes). In a study of transgender males and females, decreased insulin sensitivity was found in both populations after four months of hormonal treatment.[46]
Both estrogens and androgens are necessary for both cisgender males and females for healthy bone. (Young healthy women produce about 10 mg of testosterone monthly. Higher bone mineral density in males is associated with higher serum estrogen.)
Bone is not static. It is constantly being reabsorbed and created. Osteoporosis results when bone formation occurs at a rate less than bone resorption.
Estrogen is the predominant sex hormone that slows bone loss (even in men).
Both estrogen and testosterone help stimulate bone formation (T, especially at puberty).
Testosterone may cause an increase in cortical bone thickness in transgender men (however this does not necessarily translate to a greater mechanical stability).
Transgender men who have been oophorectomized must continue androgen therapy to avoid premature osteoporosis. Estrogen supplementation is theoretically not usually necessary, as some of the injected testosterone will be aromatized into estrogen sufficient to maintain bone (as it does in cisgender men). However, a single small study of trans men after oophorectomy demonstrated that androgens alone may be insufficient to slow bone loss.[47] It is likely the case that pre-oophorectomy, residual estrogen production is protective. However, after oophorectomy, some trans men may have insufficient estrogen to slow bone loss.
Pre-clinical research has suggested the importance of low-dose estrogen supplementation for those beginning cross-sex hormone therapy (XHT) during adolescence.[48]
Some physicians advocate a Dexa (bone density) scan at the time of oophorectomy and every year or two thereafter to diagnose osteoporosis before it becomes severe enough to be symptomatic. This is important because the treatment of osteoporosis is most effective if done early.
Daily calcium supplementation and possibly Vitamin D3 and K2 are probably a good idea for most transgender men, but it is even more important after removal of the ovaries.[36]
OSA may be worsened or unmasked by androgen therapy.
Risk is higher in transgender men who are obese, smoke, or have COPD (Chronic Obstructive Pulmonary Disease).
Untreated OSA may have significant adverse effects on the heart, blood pressure, mood, and may cause headaches and worsen seizure disorders.
Symptoms of OSA are noisy sleeping (snoring), excessive daytime sleepiness, morning headache, personality changes, and problems with judgment, memory, and attention.
Increased red blood cell mass usually from overproduction by the bone marrow.
Testosterone (frequently in large doses) was previously used to treat anemia from bone marrow failure.
A transgender man's hematocrit (the percentage of whole blood made up of red blood cells) should be judged against normal age-adjusted values for men.
Therapy is via phlebotomy (periodic therapeutic blood draws similar to blood donation).
Tendency to become polycythemic worsens with age.
Worse with injected testosterone (especially with longer intervals between doses) than with oral, transdermal, or Testopel. (Increase in RBCs occurs with the very high peaks from the injection. So decreasing dose and interval to 7–10 days instead of 14 may help.)
During HRT, especially in the early stages of treatment, blood tests should be consistently done to assess hormone levels and liver function.
Gianna Israel and colleagues have suggested that for pre-oophorectomy trans men, therapeutic testosterone levels should optimally fall within the normal male range, whereas estrogen levels should optimally fall within the normal female range. Before oophorectomy, it is difficult and frequently impractical to fully suppress estrogen levels into the normal male range, especially with exogenous testosterone aromatizing into estrogen, hence why the female ranges are referenced instead. In post-oophorectomy trans men, Israel and colleagues recommend that both testosterone and estrogen levels fall exactly within the normal male ranges. See the table below for all of the precise values they suggest.[49]
The optimal ranges listed for testosterone only apply to individuals taking bioidentical hormones in the form of testosterone (including esters) and do not apply to those taking synthetic AAS (e.g., nandrolone) or dihydrotestosterone.
^Mwamba RN, Ekwonu A, Guimaraes P, Raheem OA (Nov 2022). "The efficacy, safety, and outcomes of testosterone use among transgender men patients: A review of the literature". Neurology of Urodynamics. doi:10.1002/nau25094 (inactive 1 November 2024).{{cite journal}}: CS1 maint: DOI inactive as of November 2024 (link)
^Hembree WC, Cohen-Kettenis PT, Gooren L, Hannema SE, Meyer WJ, Murad MH, Rosenthal SM, Safer JD, Tangpricha V, T'Sjoen GG (November 2017). "Endocrine Treatment of Gender-Dysphoric/Gender-Incongruent Persons: An Endocrine Society Clinical Practice Guideline". The Journal of Clinical Endocrinology and Metabolism. 102 (11): 3869–3903. doi:10.1210/jc.2017-01658. PMID28945902. S2CID3726467.
^Meriggiola MC, Gava G (November 2015). "Endocrine care of transpeople part I. A review of cross-sex hormonal treatments, outcomes and adverse effects in transmen". Clinical Endocrinology. 83 (5): 597–606. doi:10.1111/cen.12753. PMID25692791. S2CID11480289.
^Pelusi C, Costantino A, Martelli V, Lambertini M, Bazzocchi A, Ponti F, et al. (December 2014). "Effects of three different testosterone formulations in female-to-male transsexual persons". The Journal of Sexual Medicine. 11 (12): 3002–3011. doi:10.1111/jsm.12698. PMID25250780.
^ abcGinsberg BA (March 2017). "Dermatologic care of the transgender patient". International Journal of Women's Dermatology. 3 (1): 65–67. doi:10.1016/j.ijwd.2016.11.007. PMC5418958. PMID28492057. In addition, oral finasteride may block the development of wanted secondary physical features, including voice change, body hair and composition, and clitoromegaly. Therefore, it is important to ensure that all desired changes are complete before the initiation of treatment with finasteride, which is frequently after 2 years of testosterone use.
^ abcGorton RN, Jamie Buth MD (May 2005). Medical therapy and health maintenance for transgender men: A guide for health care providers. Lyon-Martin Women's Health Services. ISBN978-0-9773250-0-9.
^ abGrimstad FW, Fowler KG, New EP, Ferrando CA, Pollard RR, Chapman G, et al. (March 2019). "Uterine pathology in transmasculine persons on testosterone: a retrospective multicenter case series". American Journal of Obstetrics and Gynecology. 220 (3): 257.e1–257.e7. doi:10.1016/j.ajog.2018.12.021. PMID30579875. S2CID58556160.
^Krempasky C, Harris M, Abern L, Grimstad F (February 2020). "Contraception across the transmasculine spectrum". American Journal of Obstetrics and Gynecology. 222 (2): 134–143. doi:10.1016/j.ajog.2019.07.043. PMID31394072. S2CID199504002.
^Motta G, Crespi C, Mineccia V, Brustio PR, Manieri C, Lanfranco F (January 2018). "Does Testosterone Treatment Increase Anger Expression in a Population of Transgender Men?". The Journal of Sexual Medicine. 15 (1): 94–101. doi:10.1016/j.jsxm.2017.11.004. PMID29175227.
^Polderman KH, Gooren LJ, Asscheman H, Bakker A, Heine RJ (July 1994). "Induction of insulin resistance by androgens and estrogens". The Journal of Clinical Endocrinology and Metabolism. 79 (1): 265–271. doi:10.1210/jcem.79.1.8027240. PMID8027240.
^van Kesteren P, Lips P, Gooren LJ, Asscheman H, Megens J (March 1998). "Long-term follow-up of bone mineral density and bone metabolism in transsexuals treated with cross-sex hormones". Clinical Endocrinology. 48 (3): 347–354. doi:10.1046/j.1365-2265.1998.00396.x. PMID9578826. S2CID31409051.