Pulsatile gonadotropin secretion in women with hypothalamic amenorrhea: evidence that reduced frequency of gonadotropin-releasing hormone secretion is the mechanism of persistent anovulation.

Abstract

Hypothalamic amenorrhea (HA) is a clinical disorder of unknown etiology. The diagnosis is made by exclusion of known abnormalities of pituitary and ovarian function. To determine if abnormalities of GnRH secretion could account for the anovulation and amenorrhea, we measured plasma gonadotropins every 20 min for 10- to 24-h periods in 19 women with HA. Ovarian steroids and gonadotropin responses to an iv bolus dose of GnRH (25 ng/kg) were also measured. The results were compared to those obtained during the early follicular (EF) and late luteal (LL) phases of ovulatory cycles in normal women. Plasma estradiol was lower (mean +/- SE, 52 +/- 5 pg/ml) than either cycle stage in normal women. Mean plasma LH was lower than EF values and FSH was higher than LL values. The amplitude of LH pulses in HA was similar to that in normal women. LH pulse frequency was the same as that present during the LL, but lower than that during the EF (HA, 4.7 pulses/12 h; EF, 7.7 pulses/12 h; P less than 0.05). In addition to the similar frequency, the patterns of LH secretion in HA resembled that of LL in that the amplitude of LH pulses was highly variable and pulses occurred at irregular intervals. Consistent changes in diurnal gonadotropin secretion were not found, and LH secretion was greater at night in 9 studies and during the day in 5 studies. Repeat studies in three patients (5-13 months later) revealed that LH pulse frequency was variable, being unchanged in 1, increased in 1, and decreased in the third patient. Thus, LH pulse frequency and, by inference, GnRH pulse frequency are similar in HA to those in the normal luteal phase despite a different steroid milieu. GnRH pulse frequency increases from the luteal to the follicular phases of normal cycles and may be important in the initiation of ovarian follicular maturation. These data suggest that the absence of cyclical gonadotropin secretion and anovulation in HA result from a decreased frequency and irregular amplitude of GnRH secretion and consequent absence of ovarian follicular maturation.