Intensive FSH stimulation is a key tool of assisted reproduction technology but can cause severe complications through the development of an excessive number of small ovarian follicles. We tested the hypothesis that, in the late stages of ovulation induction, LH activity in the form of low-dose human CG (hCG) can stimulate and selectively modulate ovarian follicle function and growth, independently of FSH administration. Four groups of GnRH agonist-suppressed normoovulatory women (10 each group) received recombinant human FSH (r-hFSH) (150 IU/d) for 7 d followed by: group A, r-hFSH 150 IU/d alone; group B, r-hFSH 50 IU/d and hCG 50 IU/d; group C, r-hFSH 25 IU/d and hCG 100 IU/d; group D, hCG 200 IU/d alone. Despite several days of lowered or absent r-hFSH administration, 70% of hCG-treated patients successfully completed treatment. In these subjects, preovulatory E2 levels and large (>14 mm diameter) ovarian follicle development were not reduced; conversely, the number of small (<10 mm diameter) ovarian follicles was significantly decreased in groups B-D vs. group A. Low-dose hCG administration did not cause follicle luteinization. We conclude that, following FSH priming, LH activity administration can: 1) stimulate folliculogenesis for several days, in spite of rapidly declining FSH levels; and 2) hasten small follicle demise. Therefore, LH activity administration could be used to design radically novel ovulation induction regimens that, by partly or completely replacing mid-/late follicular phase FSH administration, may reduce costs and improve safety of assisted reproduction technology.
Gonadotrophin-releasing hormone (GnRH) agonists have become irreplaceable addition to gonadotrophins in ovulation induction for assisted reproduction. Of the several schemes currently employed, long regimens appear to be maximally effective to optimize patient scheduling and to improve clinical results.
Pulsatile gonadotropin secretion is a critical endocrine component of the regulation of the normal menstrual cycle. Pulsatile luteinizing hormone (LH) secretion changes dynamically across the menstrual cycle. Derangements of pulsatile LH secretion are found in virtually every menstrual disorder. This article summarizes the key features of pulsatile LH secretion in the normal menstrual cycle and in ovulatory disorders.
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