Modulation of folliculogenesis and steroidogenesis in women by graded menotrophin administration.

BACKGROUND: To test the effects of progressively decreasing dosages of exogenous LH we combined various amounts of HMG, containing FSH, LH and HCG, and highly purified (HP) FSH to treat 120 GnRH agonist-suppressed infertile female patients as candidates for controlled ovarian stimulation (COS). METHODS: Subjects were randomly assigned to four treatment groups that received the following daily i.m. gonadotrophin regimens: A, FSH 150 IU only; B, FSH 150 IU and LH activity 37.5 IU; C, FSH 150 IU and LH activity 75 IU; D, FSH 150 IU and LH activity 150 IU. FSH dose adjustments were allowed only after the 14th treatment day. Monitoring included transvaginal ultrasound at 2-day intervals and daily determinations of LH, FSH, estradiol (E(2)), progesterone, testosterone and HCG. RESULTS: Duration of COS was significantly shortened in patients receiving at least 75 IU daily of LH activity. Small (<10 mm diameter) pre-ovulatory ovarian follicle occurrence was inversely correlated with LH activity dose administered (r = -0.648, P < 0.0001) and serum HCG levels (r = -0.272, P < 0.01) but not to serum LH levels. Serum testosterone levels were positively correlated to the LH activity dose administered (r = 0.313, P < 0.001), while serum progesterone levels were positively correlated to the FSH dose administered (r = 0.447, P < 0.00001) but not to the LH activity dose administered. CONCLUSIONS: Firstly, HCG content considerably contributes to HMG activity; secondly, menotrophin LH activity content can reduce in a dose-dependent manner the occurrence of small pre-ovulatory follicles; and finally, contrary to common belief, enhanced FSH stimulation rather than LH activity appears to cause premature follicle luteinization during COS.

Stimulation and growth of antral ovarian follicles by selective LH activity administration in women.

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.

Luteinzing hormone activity in menotropins optimizes folliculogenesis and treatment in controlled ovarian stimulation.

Although the role that LH plays in folliculogenesis is still controversial, recent evidence points toward facilitatory actions of LH activity in ovulation induction. Thus, we compared the response to either highly purified FSH (75 IU FSH/ampoule; group A, 25 subjects) or human menopausal gonadotropin (75 IU FSH and 75 IU LH/ampoule; group B, 25 subjects) in normoovulatory GnRH agonist-suppressed women, candidates for intrauterine insemination. A fixed regimen of 2 daily ampoules of highly purified FSH or human menopausal gonadotropin was administered in the initial 14 days of treatment; menotropin dose adjustments were allowed thereafter. Treatment was monitored with daily blood samples for the measurement of LH, FSH, 17beta-estradiol (E(2)), progesterone, testosterone, hCG, inhibin A, and inhibin B, and transvaginal pelvic ultrasound was performed at 2-day intervals. Although preovulatory E(2) levels were similar, both the duration of treatment (16.1 +/- 0.8 vs. 12.6 +/- 0.5 days; P< 0.005) and the per cycle menotropin dose (33.6 +/- 2.4 vs. 23.6 +/- 1.1 ampoules; P < 0.005) were lower in group B. In the initial 14 treatment days the area under the curve of FSH, progesterone, testosterone, inhibin A, and inhibin B did not differ between the 2 groups, whereas LH, hCG, and E(2) areas under the curve were higher in group B. The occurrence of small follicles (<10 mm) and the inhibin B/A ratio in the late follicular phase were significantly reduced in group B. A nonsignificant trend toward a higher multiple gestation rate was present in group A (60% vs. 17%). We conclude that ovulation induction with LH activity-containing menotropins is associated with 1) shorter treatment duration, 2) lower menotropin consumption, and 3) reduced development of small ovarian follicles. These features can be exploited to develop regimens that optimize treatment outcome, lower costs, and reduce occurrence of complications such as multiple gestation and ovarian hyperstimulation.

Low-dose human chorionic gonadotropin therapy can improve sensitivity to exogenous follicle-stimulating hormone in patients with secondary amenorrhea.

OBJECTIVE: To assess the effect of supplementing an ovulation induction regimen of highly purified FSH with LH activity in the form of low-dose hCG therapy. DESIGN: Case report. SETTING: The Reproductive Endocrinology Center at the University of Bologna, Bologna, Italy. PATIENT(S): A woman with weight-related secondary hypogonadotropic amenorrhea. INTERVENTION(S): The patient was treated first with highly purified FSH alone and then received highly purified FSH in combination with low-dose hCG therapy (50 IU/d). MAIN OUTCOME MEASURE(S): Pelvic ultrasound examinations, serum E2 levels, duration of treatment, total dose of highly purified FSH, and outcome of treatment. RESULT(S): The concomitant administration of low-dose hCG and highly purified FSH markedly reduced the duration of treatment and the dose of highly purified FSH, and resulted in a quadruplet pregnancy in a patient in whom several previous ovulation induction procedures had been unsuccessful. CONCLUSION(S): Supplementation of an ovulation induction regimen with an agent that has LH activity can enhance FSH-induced folliculogenesis and markedly reduce costs in women with hypogonadotropic hypogonadism. However, this increased response can be associated with complications such as multiple gestation.

Luteinizing hormone activity supplementation enhances follicle-stimulating hormone efficacy and improves ovulation induction outcome.

Although FSH is essential to stimulate ovarian folliculogenesis, increasing physiological and clinical evidence suggests that moderate LH stimulation may also be critical for optimal follicle and oocyte development. Conversely, a clinical trend exists toward conducting controlled ovarian hyperstimulation (COH) in a LH-depleted environment, as recently developed gonadotropin preparations are devoid of LH activity, and endogenous LH is suppressed with GnRH analogs in most COH cycles. To investigate the role of LH activity during COH we supplemented highly purified (HP) FSH with low dose hCG in GnRH agonist-suppressed women. Twenty normoovulatory women were pretreated with a GnRH agonist and after 2 weeks were randomly assigned to receive HP FSH (150 IU/day) alone (group A; 10 patients) or combined with hCG (50 IU/day; group B; 10 patients). The HP FSH dose was increased after 14 days only in cases of inadequate response. Treatment was monitored with pelvic ultrasound and daily hormone determinations. None of the patients of group B and 8 of group A required more than 14 days of treatment and increments of the FSH dose. Folliculogenesis and 17beta-estradiol (E2) secretion progressed more rapidly and evenly in group B. Although preovulatory follicle number and E2 concentrations were comparable, patients in group B required a shorter stimulation time (12.5+/-0.6 vs. 17.3+/-0.7 days in group A; P < 0.0001) and a lower HP FSH dose (1725+/-84 vs. 2670+/-164 IU in group A; P < 0.0001). Serum levels of LH, E2, progesterone, and testosterone did not differ between the 2 groups; serum FSH was higher in group A. We conclude that LH activity promotes folliculogenesis in synergy with FSH in the mid- to late follicular phase and that low dose hCG coadministration optimizes COH by 1) enhancing FSH action, 2) accelerating ovarian follicle development, 3) shortening COH duration, 4) lowering HP FSH requirements, and 5) reducing COH cost. Thus, moderate LH activity in the follicular phase plays a positive physiological and clinical role in folliculogenesis and ovulation induction.

Role of different GnRH agonist regimens in pituitary suppression and the outcome of controlled ovarian hyperstimulation.

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.

Is multiple pregnancy an unavoidable complication of ovulation induction? The case for pulsatile GnRH.

Ovarian hyperstimulation (OHS) and multiple pregnancy are dreaded complications of ovulation induction. The use of pulsatile GnRH permits to prevent the occurrence of OHS and results in few multiple pregnancies. Low-dose GnRH administration, avoidance of preovulatory hCG, patient selection, and the use of GnRH agonist pituitary desensitization in selected patients permits to limit multiple conceptions to a level comparable with the occurrence of this complication in normal unstimulated women.