Hyperprolactinaemia
Hyperprolactinaemia is a condition characterized by abnormally high levels of prolactin in the blood. In women, normal prolactin levels average to about 13 ng/mL, while in men, they average 5 ng/mL. The upper normal limit of serum prolactin is typically between 15 and 25 ng/mL for both men and women. Levels exceeding this range indicate hyperprolactinemia.
Prolactin is a peptide hormone produced by lactotroph cells in the anterior pituitary gland. It plays a vital role in lactation and breast development. Hyperprolactinemia, characterized by abnormally high levels of prolactin, may cause galactorrhea, infertility, and menstrual disruptions in women. In men, it can lead to hypogonadism, infertility and erectile dysfunction.
Prolactin is crucial for milk production during pregnancy and lactation. Together with estrogen, progesterone, insulin-like growth factor-1, and hormones from the placenta, prolactin stimulates the proliferation of breast alveolar elements during pregnancy. However, lactation is inhibited during pregnancy due to elevated estrogen levels. After childbirth, the rapid decline in estrogen and progesterone levels allows lactation to begin.
Unlike most tropic hormones released by the anterior pituitary gland, prolactin secretion is primarily regulated by hypothalamic inhibition rather than by negative feedback from peripheral hormones. Prolactin also self-regulates through a counter-current flow in the hypophyseal pituitary portal system, which triggers the release of hypothalamic dopamine. This process also inhibits the pulsatile secretion of gonadotropin-releasing hormone, thereby negatively influencing the secretion of pituitary hormones that regulate gonadal function.
Estrogen promotes the growth of pituitary lactotroph cells, particularly during pregnancy. However, lactation is hindered by the elevated levels of estrogen and progesterone during this period. The rapid decline in estrogen and progesterone after childbirth enables lactation to begin. While breastfeeding, prolactin suppresses gonadotropin secretion, potentially delaying ovulation. Ovulation may resume before the return of menstruation during this time. Although hyperprolactinemia can result from normal physiological changes during pregnancy and breastfeeding, it can also be caused by other etiologies. For example, high prolactin levels could result from diseases affecting the hypothalamus and pituitary gland. Other organs, such as the liver and kidneys, could affect prolactin clearance and consequently, prolactin levels in the serum. The disruption of prolactin regulation could also be attributed to external sources such as medications.
In the general population, the prevalence of hyperprolactinemia is 0.4%. The prevalence increases to as high as 17% in women with reproductive diseases, such as polycystic ovary syndrome. In cases of tumor-related hyperprolactinemia, prolactinoma is the most common culprit of consistently high levels of prolactin as well as the most common type of pituitary tumor. For non-tumor related hyperprolactinemia, the most common cause is medication-induced prolactin secretion. Particularly, antipsychotics have been linked to a majority of non-tumor related hyperprolactinemia cases due to their prolactin-rising and prolactin-sparing mechanisms. Typical antipsychotics have been shown to induce significant, dose-dependent increases in prolactin levels up to 10-fold the normal limit. Atypical antipsychotics vary in their ability to elevate prolactin levels; however, medications in this class, such as risperidone and paliperidone, carry the highest potential to induce hyperprolactinemia in a dose-dependent manner similar to typical antipsychotics.
Signs and symptoms
In women, high blood levels of prolactin are typically associated with hypoestrogenism, anovulatory infertility, and changes in menstruation. Menstruation disturbances commonly manifests as amenorrhea or oligomenorrhea. While mild hyperprolactinemia may not always result in menstrual disorders, it is uncommon for women to have normal menstrual cycles if their serum prolactin levels exceed 180 ng/ml. In such cases, irregular menstrual flow may result in abnormally heavy and prolonged bleeding. Women who are not pregnant or nursing may also unexpectedly begin producing breast milk, a condition that is not always associated with high prolactin levels. For instance, many pre-menopausal women experiencing hyperprolactinemia do not experience galactorrhea and only some women who experience galactorrhea will be diagnosed with hyperprolactinemia. Thus, galactorrhea may be observed in individuals with normal prolactin levels and does not necessarily indicate hyperprolactinemia. This phenomenon is likely due to galactorrhea requiring adequate levels of progesterone or estrogen to prepare the breast tissue. Additionally, some women may also experience loss of libido and breast pain, particularly when prolactin levels rise initially, as the hormone promotes tissue changes in the breast.In men, the most common symptoms of hyperprolactinemia are decreased libido, sexual dysfunction, erectile dysfunction/impotence, infertility, and gynecomastia. Unlike women, men do not experience reliable indicators of elevated prolactin such as menstrual changes, to prompt immediate medical consultation. As a result, the early signs of hyperprolactinemia are generally more difficult to detect and may go unnoticed until more severe symptoms are present. For instance, symptoms such as loss of libido and sexual dysfunction are subtle, arise gradually, and may falsely indicate a different cause. Many men with pituitary tumor–associated hyperprolactinemia may forego clinical help until they begin to experience serious endocrine and vision complications, such as major headaches or eye problems.
Men often present late in the course of hyperprolactinemia, typically with symptoms related to the expansion of their pituitary tumor, such as headaches, visual defects, and external ophthalmoplegia, or symptoms from secondary adrenal or thyroid failure. Despite experiencing sexual impairment for many years before receiving a diagnosis, it is unclear whether macroprolactinomas are more commonly seen in men due to delayed diagnosis or if the pathogenesis of prolactinomas differs between men and women. Unlike women, who most commonly have microprolactinomas, men usually present with macroprolactinomas, and their serum prolactin levels are generally much higher than those observed in women.
Long-term hyperprolactinaemia can lead to detrimental changes in bone metabolism as a result of hypoestrogenism and hypoandrogenism. Studies have shown that chronically elevated prolactin levels lead to increased bone resorption and suppress bone formation, resulting in reduced bone density, increased risk of fractures, and increased risk of osteoporosis. In men, the chronic presence of hyperprolactinemia can lead to hypogonadism and osteolysis. The prevalence of bone impairment is significantly higher in men with prolactinomas compared to women. Impaired bone mineral density serves as an "end organ" marker, reflecting the full extent of the disease. It could potentially become a surrogate marker for the severity of long-term hyperprolactinemia and associated hypogonadism.
Causes
Prolactin secretion is regulated by both stimulatory and inhibitory mechanisms. Dopamine acts on pituitary lactotroph D2 receptors to inhibit prolactin secretion while other peptides and hormones, such as thyrotropin releasing hormone, stimulate prolactin secretion. As a result, hyperprolactinemia may be caused by disinhibition or excess production. The most common cause of hyperprolactinemia is prolactinoma. A blood serum prolactin level of 1000–5000 mIU/L may arise from either mechanism, however levels >5000 mIU/L is likely due to the activity of an adenoma. Prolactin blood levels are typically correlated with the size of the tumors. Pituitary tumors smaller than 10 mm in diameter, or microadenomas, tend to have prolactin levels <200 ng/mL. Macroadenomas larger than 10 mm in diameter possess prolactin >1000 ng/mL.Hyperprolactinemia inhibits the secretion of gonadotropin-releasing hormone from the hypothalamus, which in turn inhibits the release of follicle-stimulating hormone and luteinizing hormone from the pituitary gland and results in diminished gonadal sex hormone production. This is the cause of many of the symptoms described below.
In many people, elevated prolactin levels remain unexplained and may represent a form of hypothalamic–pituitary–adrenal axis dysregulation.