Nonclassic Congenital Adrenal Hyperplasia

The objective of the present study was to estimate the prevalence of the different pathological conditions causing clinically evident androgen excess and to document the degree of long-term success of suppressive and/or antiandrogen hormonal therapy in a large consecutive population of patients. All patients presenting for evaluation of symptoms potentially related to androgen excess between October 1987 and June 2002 were evaluated, and the data were maintained prospectively in a computerized database. For the assessment of therapeutic response, a retrospective review of the medical chart was performed, after the exclusion of those patients seeking fertility therapy only, or with inadequate follow-up or poor compliance. A total of 1281 consecutive patients were seen during the study period. Excluded from analysis were 408 patients in whom we were unable to evaluate hormonal status, determine ovulatory status, or find any evidence of androgen excess. In the remaining population of 873 patients, the unbiased prevalence of androgen-secreting neoplasms was 0.2%, 21-hydroxylase-deficient classic adrenal hyperplasia (CAH) was 0.6%, 21-hydroxylase-deficient nonclassic adrenal hyperplasia (NCAH) was 1.6%, hyperandrogenic insulin-resistant acanthosis nigricans (HAIRAN) syndrome was 3.1%, idiopathic hirsutism was 4.7%, and polycystic ovary syndrome (PCOS) was 82.0%. Fifty-nine (6.75%) patients had elevated androgen levels and hirsutism but normal ovulation. A total of 257 patients were included in the assessment of the response to hormonal therapy. The mean duration of follow-up was 33.5 months (range, 6-155). Hirsutism improved in 86%, menstrual dysfunction in 80%, acne in 81%, and hair loss in 33% of patients. The major side effects noted were irregular vaginal bleeding (16.1%), nausea (13.0%), and headaches (12.6%); only 36.6% of patients never complained of side effects. In this large study of consecutive patients presenting with clinically evident androgen excess, specific identifiable disorders (NCAH, CAH, HAIRAN syndrome, and androgen-secreting neoplasms) were observed in approximately 7% of subjects, whereas functional androgen excess, principally PCOS, was observed in the remainder. Hirsutism, menstrual dysfunction, or acne, but not alopecia, improved in the majority of patients treated with a combination suppressive therapy; although more than 60% experienced side effects.

Hirsutism usually results from a subtle excess of androgens. As such, it is a clue to possible endocrine disturbance in addition to presenting cosmetic problems. We use the term hirsutism to mean male-pattern hirsutism--excessive growth of hair in areas where female subjects normally have considerably less than male subjects. An elevation of the plasma free (unbound) testosterone level is the single most consistent endocrinologic finding in hirsutism. The plasma free testosterone level is sometimes elevated when the total level of plasma testosterone is normal because testosterone-estradiol--binding globulin (TEBG) levels are often depressed in hirsute women. Frequent blood sampling is sometimes necessary to demonstrate subtle hyperandrogenic states since androgen levels in the blood are pulsatile and seemingly reflect episodic ovarian and adrenal secretion. The source of hyperandrogenemia can usually be determined from dexamethasone suppression testing. Those patients whose plasma free androgen levels do not suppress normally usually have functional ovarian hyperandrogenism (polycystic ovary syndrome variants). Very high plasma androgen levels or evidence of hypercortisolism, which is not normally suppressible by dexamethasone, should lead to the search for a tumor or Cushing's syndrome. Those patients in whom hyperandrogenemia is suppressed normally by dexamethasone have a form of the adrenogenital syndrome, a prolactinoma, obesity, or idiopathic hyperandrogenemia. In such patients, glucocorticoid therapy may reduce hirsutism and acne and normalize menses. The treatment of hirsutism resulting from functional ovarian hyperandrogenism is not as satisfactory; estrogen-progestin treatment is the most useful adjunct to cosmetic approaches to hirsutism in this country. However, other manifestations of polycystic ovary syndrome, such as infertility, may take precedence over hirsutism when an optimal therapeutic program is designed for many patients.

The aetiology of polycystic ovary syndrome (PCOS) remains unknown. This familial syndrome is prevalent among reproductive-aged women and its inheritance indicates a dominant regulatory gene with incomplete penetrance. However, promising candidate genes have proven unreliable as markers for the PCOS phenotype. This lack of genetic linkage may represent both extreme heterogeneity of PCOS and difficulty in establishing a universally accepted PCOS diagnosis. Nevertheless, hyperandrogenism is one of the most consistently expressed PCOS traits. Animal models that mimic fetal androgen excess may thus provide unique insight into the origins of the PCOS syndrome. Many female mammals exposed to androgen excess in utero or during early post-natal life typically show masculinized and defeminized behaviour, ovulatory dysfunction and virilized genitalia, although behavioural and ovulatory dysfunction can coexist without virilized genitalia based upon the timing of androgen excess. One animal model shows particular relevance to PCOS: the prenatally androgenized female rhesus monkey. Females exposed to androgen excess early in gestation exhibit hyperandrogenism, oligomenorrhoea and enlarged, polyfollicular ovaries, in addition to LH hypersecretion, impaired embryo development, insulin resistance accompanying abdominal obesity, impaired insulin response to glucose and hyperlipidaemia. Female monkeys exposed to androgen excess late in gestation mimic these programmed changes, except for LH and insulin secretion defects. In utero androgen excess may thus variably perturb multiple organ system programming and thereby provide a single, fetal origin for a heterogeneous adult syndrome.