Gynecomastia

Clinic

• Also spelled gynaecomastia is the abnormal non-cancerous enlargement of one or both breasts in males due to the growth of breast tissue as a result of a hormone imbalance between estrogens and androgens.

• Gynecomastia can be normal in newborn babies due to exposure to estrogen from the mother, in adolescents going through puberty, in older men over age 50, and/or in obese men
• Gynecomastia is different from "pseudogynecomastia", which is defined as an excess of skin and/or adipose tissue in the male breasts without the growth of true glandular breast tissue; this is commonly associated with obesity and can be ruled out by physical exam.

Causes

• Gynecomastia is thought to be caused by an altered ratio of estrogens to androgens mediated by
  1. An increase in estrogen action
  2. A decrease in androgen action
  3. A combination of these two factors. Estrogen and androgens have opposing actions on breast tissue: estrogens stimulate proliferation while androgens inhibit proliferation. The cause of gynecomastia is unknown in around 25% of cases. Known causes can be physiologic (occurring normally) or non-physiologic due to underlying pathologies such as drug use, chronic disease, tumors, or malnutrition.

Physiologic[edit]

Physiologic or normal gynecomastia can occur at three timepoints in life: shortly after birth in both female and male infants, during puberty in adolescent males, and in older adults over the age of 60.

Newborns[edit]

Gynecomastia of boys going through puberty. 60-90% of male and female newborns may show breast development at birth or in the first weeks of life. During pregnancy, the placenta converts the androgenic hormones dehydroepiandrosterone (DHEA) and DHEA sulfate to the estrogenic hormones estrone and estradiol, respectively; after these estrogens are produced by the placenta, they are transferred into the baby's circulation, thereby leading to temporary gynecomastia in the baby. In some infants, neonatal milk (also known as "witch's milk") can leak from the nipples. The temporary gynecomastia seen in newborn babies usually resolves after two or three weeks.

Adolescents[edit]

Hormonal imbalance (elevated ratio of estrogen to androgen) during early puberty, either due to decreased androgen production from the adrenals and/or increased conversion of androgens to estrogens, leads to transient gynecomastia in adolescent males. It can occur in up to 65% of adolescents as early as age 10 and peaks at ages 13 and 14. It is self-limited in 75-90% of adolescents and usually resolves spontaneously within 1 to 3 years as pubertal progression increases testosterone levels and cause regression of breast tissue. By age 17, only 10% of adolescent males have persistent gynecomastia.

Older adults[edit]

Declining testosterone levels and an increase in the level of subcutaneous fatty tissue seen as part of the normal aging process can lead to gynecomastia in older males. Increased fatty tissue, a major site of aromatase activity, leads to increased conversion of androgenic hormones such as testosterone to estrogens. Additionally, levels of sex hormone binding globulin (SHBG) increase with age and bind with less affinity to estrogen than androgens. Put together, the elevated ratio of estrogen to androgen leads to gynecomastia, also known as senile gynecomastia in this group. There is a 24-65% prevalence of senile gynecomastia in older males.

Non-physiologic[edit]

Drugs[edit]

An exceptional case of extreme gynecomastia in a 63-year-old man, treated with the nonsteroidal antiandrogen flutamide for prostate cancer. (a) With flutamide; (b) after discontinuation of flutamide. More than 90% of cases of gynecomastia with nonsteroidal antiandrogens including flutamide are mild to moderate. About 10–25% of gynecomastia cases are estimated to result from the use of medications or exogenous chemicals. Drugs can increase estrogen activity or increase the estrogen to androgen ratio through various mechanisms, such as binding to estrogen receptors, promoting estrogen synthesis, providing precursors that can be aromatized into estrogen, causing damage to the testes, inhibiting testosterone synthesis, inhibiting the action of androgens, or displacing estrogen from SHBG. Drugs with good evidence for association with gynecomastia include cimetidine, ketoconazole, gonadotropin-releasing hormone analogues, human growth hormone, human chorionic gonadotropin, 5α-reductase inhibitors such as finasteride and dutasteride, certain estrogens used for prostate cancer, and antiandrogens such as bicalutamide, flutamide, and spironolactone.

Drugs with fair evidence for association with gynecomastia include calcium channel blockers such as verapamil, amlodipine, and nifedipine; risperidone, olanzapine, anabolic steroids, alcohol, opioids, efavirenz, alkylating agents, and omeprazole. Certain components of personal skin care products such as lavender or tea tree oil have been reported to cause prepubertal gynecomastia due to its estrogenic and anti-androgenic effects. Certain dietary supplements such as dong quai and Tribulus terrestris have also been associated with gynecomastia.

Refeeding gynecomastia[edit]

Malnutrition and significant loss of body fat suppress gonadotropin secretion, leading to hypogonadism. This is reversible when adequate nutrition resumes, where the return of gonadotropin secretion and gonadal function cause a transient imbalance of estrogen and androgen that mimics puberty, resulting in transient gynecomastia. This phenomenon, also known as refeeding gynecomastia, was first observed when men returning home from prison camps during World War II developed gynecomastia after resuming a normal diet. Similar to pubertal gynecomastia, refeeding gynecomastia resolves on its own in 1–2 years.

Chronic disease[edit]

Many kidney failure patients experience a hormonal imbalance due to the suppression of testosterone production and testicular damage from high levels of urea also known as uremia-associated hypogonadism. Additionally, gynecomastia has been observed in 50% of patients with chronic kidney disease undergoing dialysis. Similar to the mechanism behind refeeding gynecomastia, dialysis allows patients with renal failure who were previously malnourished to expand their diets and regain weight. Dialysis-associated gynecomastia resolves spontaneously within 1–2 years.

In individuals with liver failure or cirrhosis, the liver's ability to properly metabolize hormones such as estrogen may be impaired. Additionally, those with alcoholic liver disease are further put at risk for development of gynecomastia; ethanol may directly disrupt the synthesis of testosterone and the presence of phytoestrogens in alcoholic drinks may also contribute to a higher estrogen to testosterone ratio. Conditions that can cause malabsorption such as cystic fibrosis or ulcerative colitis may also produce gynecomastia.

A small proportion of male gynecomastia cases may be seen with rare inherited disorders such as spinal and bulbar muscular atrophy and the very rare aromatase excess syndrome.

Hypogonadism[edit]

Gynecomastia can be caused by absolute deficiency in androgen production due to primary or secondary hypogonadism. Primary hypogonadism results when there is damage to the testes (due to radiation, chemotherapy, infections, trauma, etc), leading to impaired androgen production. It can also be caused by chromosomal abnormality seen in Klinefelter syndrome, which is associated with gynecomastia in about 80% of cases. Secondary hypogonadism results when there is damage to the hypothalamus or pituitary (due to radiation, chemotherapy, infection, trauma, etc), and similarly lead to impaired androgen production. The net effect is reduced androgen production while serum estrogen levels (from peripheral aromatization of androgens) remain unaffected. The lack of androgen-mediated inhibition of breast tissue proliferation combined with relative estrogen excess result in gynecomastia.

Tumors[edit]

Testicular tumors such as Leydig cell tumors, Sertoli cell tumors (such as in Peutz–Jeghers syndrome) and hCG-secreting choriocarcinoma may result in rapid-onset gynecomastia by causing excess production of estrogen. Other tumors such as adrenal tumors, pituitary gland tumors (such as a prolactinoma), or lung cancer, can produce hormones that alter the male–female hormone balance and cause gynecomastia.

Individuals with prostate cancer who are treated with androgen deprivation therapy may experience gynecomastia.

Pathophysiology[edit]

Pathology: A large glandular mass of male breast tissue, surgically removed Microscopic image showing gynecomastoid hyperplasia, the cellular changes seen in gynecomastia H&E stain

The causes of common gynecomastia remain uncertain, but are thought to result from an imbalance between the actions of estrogen, which stimulates breast tissue growth, and androgens, which inhibit breast tissue growth. Breast prominence can result from enlargement of glandular breast tissue, chest adipose tissue (fat) and skin, and is typically a combination. As in females, estrogen stimulates the growth of breast tissue in males. In addition to directly stimulating breast tissue growth, estrogens indirectly decrease secretion of testosterone by suppressing luteinizing hormone secretion, resulting in decreased testicular secretion of testosterone.

Estrogen excess[edit]

One of the main mechanisms for imbalance between estrogens and androgens is the overproduction of estrogens. A possible cause may be a neoplasm that originates from estrogen-secreting cells. Tumors that produce hCG stimulate production of estradiol while reducing other testicular hormone production. Obesity is another common cause of excess serum estrogens due to the presence of aromatase in peripheral tissue, which is a protein that converts androgens into estrogens. Peutz-Jeghers syndrome is a rare cause of testicular tumors that affect aromatase expression, which results in elevated serum estrogen levels. Aromatase excess syndrome is a rare genetic disorder that leads to increased conversion of androgens to estrogens in the body.

Androgen deficiency[edit]

Primary hypogonadism (indicating an intrinsic problem with the testes in males) leads to decreased testosterone synthesis and increased conversion of testosterone to estradiol potentially leading to a gynecomastic appearance. Klinefelter syndrome is a notable example of a disorder that causes hypogonadism and gynecomastia, and has a higher risk of breast cancer in males (20–50 times higher than males without the disorder). Secondary hypogonadism (indicating a problem with the brain) leads to decreased production and release of luteinizing hormone (LH, a stimulatory signal for endogenous steroid hormone synthesis) which leads to decreased production of testosterone and estradiol in the testes.

Increased levels of sex hormone-binding globulin[edit]

Estrogens can increase blood levels of the protein sex hormone-binding globulin (SHBG), which binds free testosterone (the active form) more strongly than estrogen, leading to decreased action of testosterone in male breast tissue. Conditions such as hyperthyroidism and chronic liver disease affect levels of SHBG, leading to symptomatic gynecomastia.

Androgen resistance[edit]

Dysfunction in the androgen receptor prevents the effects of testosterone from acting on its target tissues. Androgen insensitivity syndromes result from the different degrees of resistance to the effects of androgens, and can cause external genitalia that may not be aligned with the genotype of the individual's sex chromosomes. Complete androgen insensitivity syndrome results in the failure to develop external genitalia such as the penis and scrotum along with development of breasts in an individual with testes. Partial androgen insensitivity syndrome may result in a variety of presentations. Minimal androgen insensitivity syndrome may present as gynecomastia in adolescence and may additionally be associated with infertility.

Medications[edit]

Medications are known to cause gynecomastia through several different mechanisms. These mechanisms include increasing estrogen levels, mimicking estrogen, decreasing levels of testosterone or other androgens, blocking androgen receptors, increasing prolactin levels, or through unidentified means. Potential causative agents include oral contraceptive pills, spironolactone, and anabolic steroids.

High levels of prolactin in the blood (which may occur as a result of certain tumors or as a side effect of certain medications) has been associated with gynecomastia. A high level of prolactin in the blood can inhibit the release of gonadotropin-releasing hormone and therefore cause secondary hypogonadism. Receptors for prolactin and other hormones including insulin-like growth factor 1, insulin-like growth factor 2, luteinizing hormone, progesterone, and human chorionic gonadotropin have been found in male breast tissue, but the impact of these various hormones on gynecomastia development is not well understood.

Chronic disease[edit]

Individuals who have cirrhosis or chronic liver disease may develop gynecomastia for several reasons. Those diagnosed with cirrhosis tend to have increased secretion of the androgenic hormone androstenedione from the adrenal glands, increased conversion of this hormone into various types of estrogen, and increased levels of SHBG, which leads to decreased blood levels of free testosterone. Around 10–40% of males with Graves' disease (a common form of hyperthyroidism) experience gynecomastia. Increased conversion of testosterone to estrogen by increased aromatase activity, increased levels of SHBG and increased production of testosterone and estradiol by the testes due to elevated levels of LH cause the gynecomastia. Proper treatment of the hyperthyroidism can lead to the resolution of the gynecomastia.