Serum androgens testosterone (T), testosterone-like-substances (TLS), delta4-androstenedione (delta4), dihydrotestosterone (DHT), dehydroepiandrosterone (DHEA) were measured in 85 normal girls and 101 normal boys grouped according to pubic hair development in Tanner stages I to IV/V. The pattern of change with puberty differed for each androgen. In boys T and TLS rose with the onset of puberty but showed a more abrupt rise later in puberty. DHT also was higher in boys in late puberty but did not demonstrate a steep rise. The other androgens did not show a sex difference at any stage of puberty. While delta4 steroids did not show an increase in the years before onset of puberty, DHEA was significantly higher in prepubertal children over 7 years than in those under 7 years (mean +/- SD 166 +/- 110 vs. 31 +/- 25, P less than 0.005). The most rapid increase of DHEA concentrations was observed with the appearance of pubic hair (Stage II) in boys and girls. This contrasted with the more gradual rise of delta4 in both sexes. The oldest boys and girls (Tanner stages IV/V) had mean concentrations of all androgens in the adult range except for DHT. Twenty-two girls with precocious adrenarche (PA) aged 3-8 years had mean concentrations of T, DHT, delta4 and DHEA that were significantly higher (P less than 0.05) than in prepubertal children, but similar to those of girls in stage II and significantly lower (P less than 0.02) than in late pubertal girls (stage IV/V). Longitudinal studies in 12 of the girls indicated fluctuation of androgen concentrations, especially DHEA, but in general no increase during the years of followup. Precocious adrenarche appears to be a non-progressive disorder associated with an advanced maturation of adrenal androgen to an early pubertal stage. A rise in all androgens measured was correlated with the development of sexual hair.
Dehydroepiandrosterone sulfate (DS) concentration was measured in the sera of premature and full-term infants and in children throughout puberty. Panhypopituitary, Addisonian, and virilized children were also studied. DS decreased slowly during the first weeks of life from a high level in neonates to the low levels observed between one to five years. After five years of age, DS concentration started to rise. A steeper increase was observed with the onset of puberty, and adult DS concentrations were reached in late puberty. There was no sex difference in DS concentration at any pubertal stage or bone age. Day-to-day variations were small in childhood and during puberty, but were considerable in premature infants. DS concentrations measured at 0900 h were not significantly different from those at 1700 h. There was a positive correlation of serum DS concentrations with the excretion of urinary 17-ketosteroids in boys and girls (r=0.789). Premature infants had DS concentration in or above the late pubertal range. Five panhypopituitary patients and five Addisonian patients had DS concentrations below normal. DS was markedly elevated in patients with congenital adrenal hyperplasia and in one girl with adrenal carcinoma, and was suppressible with dexamethasone in the former. The ease of measurement and the small amount of blood required make serum DS determination a useful guide for adrenal androgen secretion.
The diagnosis of 5 alpha-reductase deficiency was proven in two prepubertal patients with male pseudohermaphroditism (MPH). Both had a 46-XY karyotype and were reared as females; one child had been castrated in infancy. Clitoromegaly, urogenital sinus, and short vaginal pouch were present in both; inguinal gonads were palpable in one. The diagnosis was made biochemically by observing characteristic changes in five parameters: 1) abnormally high testosterone to dihydrotestosterone (T:DHT) ratio after hCG stimulation (35 and 53 vs. normal, 11 +/- 3), 2) abnormally high 5 beta-T metabolites in urine (8.1 and 6.0 vs. normal, less than 1),3) deficient conversion of T to DHT during [3H] T infusion (0.3 and 0.4% vs. normal, 5.3 +/- 3), 4) deficient conversion of [14 C] T to 5 alpha-reduced metabolites by nongenital skin fibroblasts (2.2 and 1.9 pmol/microgram DNA/nmol substrate vs. 68.4+/- 7.8 Pmol/microgram DNA/nmol substrate in normal controls), and 5) deficient conversion of [14C]T to DHT in genital skin slices. The fact that this syndrome represents a defect in T metabolism rather in in T binding is demonstrated by the observation that binding of [3H]DHT to cytosol of skin fibroblasts was normal (4.2 dpm/micrograms DNA vs. normal male values of 3.7 +/- 0.64). Thus, the present report suggests that 5 alpha-reductase deficiency can be diagnosed during childhood and even after castration by metabolic studies of nongenital skin fibroblasts and determination of the conversion ratio of [3H]T to [3H]DHT in plasma.
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