Initial experiences with subcutaneous pulsatile human menopausal gonadotropin administration: successful induction of ovulation in patients with polycystic ovarian disease

Human menopausal gonadotropin (hMG) was administered to 10 patients with polycystic ovarian disease (PCOD) who had failed to ovulate in response to clomiphene citrate. Five patients (group 1) were treated with intramuscular hMG injections daily, on an individually adjusted regimen. Five others (group 2) were stimulated with subcutaneous hMG in a pulsatile fashion by means of a portable infusion minipump. The pulse doses ranged between 3.5 and 7.7 IU FSH per pulse at a constant frequency of 90 minutes. Sixteen of 18 treatment cycles were ovulatory, 9 under intramuscular, and 7 under subcutaneous treatment. A total of two patients conceived with singleton pregnancies, one in each treatment group. Neither ovarian hyperstimulation nor complications of injections were noted. The amount of subcutaneous hMG required to achieve ovulation was significantly less (46.5%; P less than .001) than that needed with intramuscular administration. However, there were no differences in the duration of stimulation periods, the lengths of luteal phases, or serum E2 and gonadotropin levels between the groups. In conclusion, pulsatile subcutaneous hMG administration may be an alternative delivery mode for patients with PCOD.     

Regulation of ovarian follicular and luteal function during treatment with exogenous gonadotropins in anovulatory infertility

The dosage, duration of treatment, and plasma hormone levels were analyzed statistically between and within groups of treatment cycles with (n = 46) and without (n = 10) ovulation. A significant difference was observed in the dosage of human menopausal gonadotropins (hMG) over various days of treatment, but not in the mean dosage of hMG and human chorionic gonadotropin (hCG) administered per cycle. Follicle-stimulating hormone (FSH):luteinizing hormone (LH) ratios, prolactin (PRL) levels, and the magnitude and the duration of the estradiol response were greater in the ovulatory cycles. Additionally, in the ovulatory cycles, the dose of hMG correlated with the plasma levels of estradiol, FSH, and LH, while in the anovulatory cycles, hMG dosage correlated only with the LH concentrations. After administration of hCG, the mean plasma concentrations of its beta subunit peaked within 1 day and remained detectable for up to 10 days thereafter. In the ovulatory cycles, the mean progesterone level was maximal 6 days following hCG administration. In these cycles, luteal phase progesterone levels correlated positively with the preovulatory estradiol and inversely with concentrations of the beta subunit of hCG. The data demonstrate that, in contrast to anovulatory follicles, ovulatory follicles were exposed to a relative "dominance" of FSH over LH, with higher concentrations of estradiol and PRL for several days before hCG was administered. Apart from hMG dosage, the endogenous discharge of LH appeared to be an important determinant of the ovarian response. A single 10,000 IU dose of hCG was adequate for inducing ovulation and maintaining luteal function.     

Endocrine evaluation of induction of ovulation with pulsatile and continuous administration of human menopausal gonadotropin (hMG) in anovulatory women

To evaluate the endocrine profiles during induction of ovulation with pulsatile and continuous administration of hMG (Pergonal), 3 patients with polycystic ovarian disease (PCO) and 4 patients with hypothalamic amenorrhea were selected as the subjects. The total dose of hMG per day was 150 IU in each patient. hMG pulse was administered intravenously via a portable infusion pump every 90 min in 4 patients including 3 PCO cases (9.375 IU/pulse) and every 18 min in one patient (1.875 IU/pulse). The remaining 2 patients received continuous subcutaneous infusion of hMG (150 IU/day). Following hMG treatment, 8,000 to 10,000 IU of hCG was used to induce ovulation. All 7 patients ovulated and 4 of them conceived. Pregnancy resulted in 2 patients following pulsatile (every 90 min) administration and in 2 patients after continuous infusion. The duration of hMG treatment needed to induce ovulation was similar among the three modes of administration and within the range of 7 to 10 days. A sustained elevation of circulating FSH levels was observed in all patients and serum estradiol increased more than 3,000 pg/ml in 6 of 7 patients during the course of treatment. Mean (+/- SE) midluteal progesterone level was 107.1 +/- 20.9 ng/ml. Moderate to severe ovarian hyperstimulation occurred in all patients. These results indicate that both pulsatile and continuous administration of hMG are similarly effective in inducing ovulation. They also appear to indicate that the hMG-induced follicular development is profoundly affected by the maintenance of high levels of FSH in the circulation rather than by the mode of administering hMG, whether pulsatile or continuous.     

Ovulation induction with a combination of LHRH analogue and hMG pulsatile subcutaneous administration in PCO patients

The pulsatile subcutaneous administration of hMG (hMG therapy) and treatment with a combination of luteinizing hormone releasing hormone analogue (Buserelin) and hMG (combined therapy) were used to induce ovulation in 9 patients with polycystic ovary syndrome (PCO). Ovulation was observed in all twelve treatment cycles in the combined therapy, and two cases (delivery at term, and abortion) of pregnancy were confirmed. In the hMG therapy, ovulation occurred in 22 cycles of 26 treatment cycles. Ovarian hyperstimulation occurred in one cycle in the combined therapy and in 5 cycles (3 ovulated patients) in the 26 hMG therapy. The total dose per cycle of hMG required to induce ovulation in the combined therapy (1,700 +/- 203IU) was significantly lower than in the hMG therapy (2,344 +/- 223IU). In response to Buserelin administration, LH and FSH increased transiently and then declined to the normal range observed in the early follicular phase. The reduced LH level was sustained throughout the hMG administration. The concentration of FSH increased in response to hMG administration, resulting in a change in the LH/FSH ratio. The LH/FSH ratio in the combined therapy was significantly lower than in the hMG therapy. The present data demonstrated that pulsatile subcutaneous administration of hMG associated with Buserelin was effective in inducing ovulation in patients with PCO with a low incidence of serious side effects.     

Clinical experience in the induction of ovulation and pregnancy with pulsatile subcutaneous administration of human menopausal gonadotropin: a low incidence of multiple pregnancy

The pulsatile subcutaneous administration of human menopausal gonadotropin (hMG) or follicle-stimulating hormone (FSH) was used for induction of ovulation in 26 patients with hypothalamic/pituitary amenorrhea or polycystic ovary syndrome (PCO). Ovulation was observed in 116 (90.6%) of 128 treatment cycles, and 15 (16 treatment cycles) of 26 patients became pregnant. All 14 fetuses, excluding two pregnancies interrupted spontaneously at weeks 6 and 9, were singleton conceptions. Ovarian hyperstimulation was observed in 15.6% of treatment cycles. Five patients with PCO who failed to conceive on the hMG regimen also received pulsatile FSH administration. Although ovulation rates in PCO patients did not differ significantly between the hMG (88.1%) and FSH (88.2%) regimens, a significant reduction in the average dose of FSH (P less than 0.05) was observed with pulsatile FSH administration. Furthermore, the number of patients who conceived during the FSH regimen was significantly greater than that found with hMG treatment. The present data demonstrate that pulsatile subcutaneous administration of hMG or FSH is effective in induction of successful ovulation and establishment of singleton pregnancy in patients with various types of anovulatory infertility.     

Induction of ovulation with subcutaneous pulsatile administration of human menopausal gonadotropin

Induction of ovulation with subcutaneous pulsatile (every 90 min.) administration of HMG (Pergonal) 75 or 150 IU/day using a portable pump (Nipro SP-3I) was performed in 3 PCO patients (6 cycles), 4 first grade amenorrhea (Am-I) patients (7 cycles) and 4 Am-II patients (4 cycles). All patients ovulated except one cycle of Am-I patients and one PCO woman conceived. In regard to the duration of administration and the total dose of HMG until ovulation, the administration of 150 IU/day (M +/- SD=15.2 +/- 5.0 days, 2280 +/- 774 IU) is superior to 75 IU/day (39.5 +/- 11.4 days, 3900 +/- 1357 IU), and there was no significant difference between this method and the daily intramuscular injection of HMG. The group treated with HCG in the luteal phase revealed a longer luteal phase (14.0 +/- 2.3 days) than the nontreated group (12.6 +/- 1.5 days). Ovarian hyperstimulation was observed in one case and subsided spontaneously after admission. There were no other side effects. In conclusion, this method has the following advantages: A high ovulation rate, comparable with daily intramuscular administration. It is a less painful procedure than daily intramuscular injection. It is possible for the patient to lead normal life, insertion and removal being easily done by herself.     

Successful induction of ovulation and conception with pulsatile intravenous administration of human menopausal gonadotropins in anovulatory infertile women resistant to clomiphene and pulsatile gonadotropin-releasing hormone therapy

Gonadotropins are released in a pulsatile fashion at a frequency of between 1 and 2 hours in the follicular phase of the menstrual cycle. Human menopausal gonadotropins are usually administered intramuscularly. We evaluated the gonadal response to intravenous human menopausal gonadotropins administered in a pulsatile fashion over nine treatment cycles in three anovulatory infertile women. Human menopausal gonadotropin pulses in doses up to 12 IU follicle-stimulating hormone at frequencies between 2 to 3 hours over 3 to 17 days resulted in ovulation in five cycles with one pregnancy being conceived. In the ovulatory cycles (5,000 to 10,000 IU of human chorionic gonadotropin was used to induce ovulation), the 17 beta-plasma estradiol level was 961 +/- 128 versus 326 +/- 95 pg/ml (mean +/- SEM) in the anovulatory cycles (p = 0.015). The dose of human menopausal gonadotropins (in ampules of Pergonal, 75 IU of follicle-stimulating hormone and 75 IU of luteinizing hormone) in the intravenous cycles needed to induce ovulation was 12.3 +/- 1.4 versus 20.4 +/- 0.9 for intramuscular cycles (n = 80 in 23 women, p = 0.008). Treatment was well tolerated and without complications. We are continuing to explore the use of this apparently more efficient mode of administering human menopausal gonadotropins to anovulatory patients resistant to other techniques of ovulation induction therapy.     

The importance of human chorionic gonadotropin support of the corpus luteum during human gonadotropin therapy in women with anovulatory infertility

One hundred ten women with anovulatory infertility (World Health Organization [WHO] group I n = 50, WHO group II n = 60) were given 341 treatment courses with human menopausal gonadotropin (hMG) and human chorionic gonadotropin (hCG). Additional hCG was given as single or repeated injections during the luteal phase in 205 ovulatory cycles. In WHO group I, the incidence of luteal phase defects was lower and the pregnancy rate higher in cycles with extra hCG administration during the luteal phase than in cycles with no extra hCG. In WHO group II, there was no such difference after supplemental hCG. The abortion rate was the same after cycles with or without extra hCG administration. It is suggested that during ovulation induction with hMG/hCG in anovulatory women with no evidence of endogenous estrogen activity, the luteal phase should be supplemented with additional hCG.     

Pulsatile administration of gonadotropin-releasing hormone for induction of ovulation

Chronic pulsatile administration of gonadotropin-releasing hormone (GnRH) was used to induce ovulation in 12 women with various ovulatory disorders. In the first group of eight patients with normal to low baseline levels of gonadotropin, seven responded favorably to the treatment. Follicular maturation was observed in 57% of the treated cycles, and normal ovulatory cycles were induced in 24% of the patients. Two patients became pregnant. The intravenous route of administration was more effective than the subcutaneous one, possibly in response to the GnRH profile after each pulse. (The amplitude of GnRH peaks after an intravenous pulse was four times that seen after a subcutaneous one.) In contrast, follicular maturation and ovulation could not be induced in four women of a second group of patients with normal baseline levels of follicle-stimulating hormone but with high and frequent pulses of luteinizing hormone. The conclusion reached was that pulsatile administration of GnRH can be a new therapeutic tool in the treatment of ovulatory disorders in women who have an insufficient endogenous release of GnRH.     

Ovarian follicular maturation in women. I. Intermittent versus daily administration of human menopausal gonadotropin

This study was designed to compare the efficiency of daily intramuscular human menopausal gonadotropin (hMG) therapy to an intermittent subcutaneous regimen in women with ovulatory dysfunction. Ovarian follicular development was assessed with the use of serial ultrasound scans and serum 17 beta-estradiol (E2) levels. Ovulation was based on pregnancy and/or elevated luteal progesterone values. There were no significant differences between the two treatment regimens, based on E2 levels, follicular size, and/or number of follicles greater than 1.0 cm. Pregnancy and ovulation occurred more frequently after intramuscular hMG therapy. These results indicate that daily hMG is preferred over intermittent subcutaneous administration because of convenience.     

Luteal function following ovarian stimulation in rhesus monkeys for in vitro fertilization: atypical response to human chorionic gonadotropin treatment simulating early pregnancy

This study determined if corpora lutea of hyperstimulated cycles in rhesus monkeys could be "rescued" by the pregnancy signal, chorionic gonadotropin (CG), given at the typical time of implantation. At menses, female monkeys received human follicle-stimulating hormone (hFSH, 60 IU, days 1 to 6) followed by human menopausal gonadotropin (hMG, 60 IU hFSH/60 IU luteinizing hormone [hLH], days 7 to 9). On day 10, human chorionic gonadotropin (hCG) was given to mimic the LH surge. Nine days later, a regimen of daily increasing doses of hCG (15 to 360 IU twice a day) was initiated to simulate rescue of the corpus luteum in early pregnancy. Serum levels of progesterone (P) increased through day 5 of the luteal phase but then declined. Circulating levels of bioactive LH were significantly less on days 7 to 9 of the luteal phase than at this stage in the natural cycle. The hCG regimen extended (P less than 0.05) the luteal phase in five of six animals. The hCG treatment elicited a persistent increase (P less than 0.05) in circulating P levels, rather than a transient rise typical of normal or simulated pregnancy in natural cycles. The authors conclude that (1) corpora lutea of hyperstimulated cycles can respond to CG, but (2) there are differences in luteal function during both the luteal phase and simulated early pregnancy that may be due to inadequate luteal development or the abnormal gonadotropin milieu existing after ovulation or both.     

Luteal dysfunction in ovulation induction: the role of repetitive human chorionic gonadotropin supplementation during the luteal phase

Several studies have indicated that ovulation induction with human menopausal gonadotropin (hMG)/human chorionic gonadotropin (hCG) or clomiphene citrate (CC) is associated with luteal phase defect. To assess the efficiency of luteal support by hCG to an infertile population undergoing ovulation induction, with CC/hCG or hMG/hCG, we have randomly administered 2500 IU hCG intramuscularly on days 3, 6, and 9 after ovulation induction by 10,000 IU of hCG to 74 patients on 265 treatment cycles. As controls served 357 ovulation induction cycles in the same 74 patients. The treatment cycles were randomly alternated with control cycles so that each patient served as her own control. However, the mean +/- standard deviation (SD) midluteal P was 38.1 +/- 10.8 ng/ml in the study group versus 15.7 +/- 10.5 ng/ml in the control group (P less than 0.001). Luteal phase length was 15.4 +/- 1.5 days in the treatment group versus 12.1 +/- 1.7 in the control group (P less than 0.01). In the treatment group, 64.8% of the patients achieved pregnancy (27% pregnancies/treatment cycle) versus 47.3% in the control group (11.5% pregnancies/control cycle) (P less than 0.01). The pregnancy wastage rates (including abortions and "chemical" pregnancies) were 30.6% in the treatment group versus 56% in the control group (P less than 0.01). We conclude that repetitive hCG administration may be an efficient luteal support in infertile patients undergoing ovulation induction.     

Endometrial biopsies during treatment with subcutaneous pulsatile gonadotropin-releasing hormone and luteal-phase human chorionic gonadotropin

A high incidence of luteal phase defect (LPD) has been reported using subcutaneous pulsatile gonadotropin-releasing hormone for induction of ovulation. We reviewed all patients treated with the combination of subcutaneous pulsatile gonadotropin-releasing hormone during the follicular phase and human chorionic gonadotropin during the luteal phase (GnRH-hCG) who underwent endometrial biopsy during a treatment cycle. All of these patients had biopsy-proven LPD which persisted despite traditional therapy with progesterone vaginal suppositories and/or clomiphene citrate. The mean number of biopsies out of phase per patient prior to GnRH-hCG treatment was 2.8 +/- 0.2 (+/- SEM). When treated with GnRH-hCG, 15/16 patients (94%) showed a normal endometrial biopsy. The probability of this result occurring by chance alone allowing for a 50% treatment independent correction rate is less than .001. These results show that the combination of subcutaneous pulsatile gonadotropin-releasing hormone and luteal-phase human chorionic gonadotropin can result in normal endometrial maturation in a high percentage of cycles when administered as described. It appears to be an effective alternative to traditional treatment modalities for luteal phase defect should one be needed.     

Luteal phase support with hCG does not improve fecundity rate in human menopausal gonadotropin-stimulated cycles.

The luteal phase of cycles stimulated with human menopausal gonadotropins (hMG) may be characterized by aberrant hormone levels, altered endometrial development, and shortened length. Luteal phase support with supplemental progesterone or hCG has been recommended to help correct these problems and thus improve pregnancy rates, but the efficacy of such regimens is controversial. Therefore, a randomized cross-over study was performed to evaluate the effects of luteal phase hCG administration on pregnancy rates during ovulation induction with hMG. Sixty-seven infertile women were randomly assigned to either group A (N = 33) or group B (N = 34). Non-treatment cycles (no luteal phase support) were alternated with treatment cycles, in which patients received 2500 IU hCG on the third, sixth, and ninth days after the ovulatory dose of 10,000 IU hCG. Patients in group A received supplemental hCG in odd-numbered cycles, whereas group B was given luteal support in even-numbered cycles. The mean number of cycles per patient was 2.2 and 2.3 for groups A and B, respectively. Analysis of 151 cycles revealed a cycle fecundity of 0.15 for 72 hCG-supported cycles, versus 0.13 for 79 nonsupported cycles (P = not significant). Midluteal progesterone levels were significantly higher in supported (45.6 ng/mL) versus unsupported cycles (31.9 ng/mL) (P less than .001). There were no significant differences in the mean peak estradiol levels in hCG-supported versus -unsupported cycles. We conclude that hCG support of the luteal phase is not routinely warranted in hMG-stimulated cycles.     

Delaying human chorionic gonadotropin administration in human menopausal gonadotropin-induced cycles decreases successful in vitro fertilization of human oocytes

Correct timing of human chorionic gonadotropin (hCG) administration in induced cycles for in vitro fertilization is of crucial importance to oocyte maturation and normal luteal function. The purpose of this work was to compare the effect of hCG timing on follicular development, oocyte maturation, and fertilization in vitro, as well as on the pattern of luteal phase hormone secretion. Ovulation was induced in 32 normally cycling women by human menopausal gonadotropin (hMG)/hCG administration. In the first group (17 women) 10,000 IU hCG was administered 24 hours after the last injection of hMG and in the second group (15 women) 48 to 72 hours after the last hMG injection. Serum estradiol levels prior to oocyte aspiration were similar in both groups, as were the numbers of large follicles on the day of hCG administration (4.5 +/- 2.3 versus 4.1 +/- 1.9 follicles/woman, respectively). The distribution of oocyte-corona-cumulus complexes was similar in both groups and was comprised of 11% immature, 43% intermediate, and 45% mature complexes. The fertilization rate, however, was significantly (P less than 0.001) reduced in the group treated by delayed hCG injection (57% versus 84%), and the percentage of degenerated oocytes was increased (9% versus 1%). Luteal phase length as well as progesterone and estradiol levels were comparable in both groups. It is concluded that an interval longer than 24 hours between the last injection of hMG and the administration of an ovulatory dose of hCG does not affect follicular and luteal phase serum steroid patterns but may result in a decreased oocyte fertilization rate, possibly due to atretic changes in the follicles.     

Induction of ovulation in amenorrheic patients with gonadotropin-releasing hormone and human menopausal gonadotropin

In five hypothalamic amenorrhea patients who underwent chronic intermittent gonadotropin-releasing hormone (GnRH) therapy for induction of ovulation, small doses (2 to 4 ampules/day) of human menopausal gonadotropin (hMG) were administered 9 to 32 days after the start of GnRH treatment. In seven treatment cycles, the addition of hMG initiated a sudden rise of 17 beta-estradiol concentrations, followed by a luteinizing hormone and follicle-stimulating hormone surge and ultrasonographic evidences of ovulation. Four of five patients conceived (singleton pregnancies) after the first or second treatment course. There were no clinical signs of ovarian hyperstimulation. Combined therapy of GnRH and hMG may be useful, therefore, for the treatment of hypothalamic amenorrhea patients who demonstrate prolonged follicular phases or luteinized unruptured follicle syndrome under chronic treatment with pulsatile GnRH alone.     

Pulsatile luteinizing hormone-releasing hormone therapy in women with polycystic ovary syndrome

Induction of ovulation with pulsatile luteinizing hormone-releasing hormone (LH-RH) therapy was attempted in 48 women with polycystic ovary disease (PCOD) and clomiphene citrate (CC) resistant anovulation. Fourteen women ovulated regularly, 23 ovulated variably, but 11 did not ovulate at all. Fifty-two of the 108 cycles of pulsatile LH-RH therapy alone (15 mu gm per pulse, one pulse every 90 minutes) administered through the subcutaneous route were ovulatory. In patients who did not ovulate on subcutaneous LH-RH, treatment with CC (100 mg per day for 5 days) was added to the LH-RH therapy in an additional 33 cycles, of which 21 were ovulatory. In those who did not respond to the combination of treatments, the same dose of LH-RH was administered intravenously: 14 of 29 cycles of intravenous therapy were ovulatory. The overall cumulative conception rate after 6 months of therapy was 60%. When recalculated for ovulatory cycles alone it was 90%, indicating that failure of ovulation was the only cause of the failure of conception. Analysis of the clinical and endocrine findings indicated that failure to ovulate was associated with obesity and hyperandrogenization. Ten of the 23 conceptions ended in miscarriage, 8 within 4 weeks of ovulation. The authors conclude that infertility in patients with PCOD is not optimally corrected by pulsatile LH-RH therapy.     

Current topics in hormone therapy

Various methods used by gynecologists in the past for hormone therapy and ovulation inducement are discussed including the administration of: 1) steroids composed mainly of estrogen, 2) clomiphene or tamoxifen (estrogen), 3) bromocriptine for high prolactin or latent (transitory) prolactin, 4) glucocorticoid for high androgen levels such as polycystic ovary or adrenogenital syndrome, 5) human menopausal gonadotropin (hMG) and human chorionic gonadotropin, and 6) hMG (pulsatile). In previous studies, another method--the administration of luteinizing hormone releasing hormone (LHRH) by drip infusion--was unsuccessful in inducing ovulation. However, experiments have been performed in which monkeys were given a pulsatile administration of LHRH every 60 minutes for 10-14 days. This new method proved successful in inducing ovulation and normalizing the ovulation cycle. Graphs showing the results of both the old method of ovulation inducement and the new method by pulsatile administration of LHRH are included. There is a brief discussion of contraception, examining, in particular, a new noncoital means of birth control involving antiprogesterone steroids which has been in the developmental stages for the past several years.     

Follicular phase treatment of luteal phase dysfunction

Previously, we demonstrated that selective suppression of serum follicle-stimulating hormone (FSH) in monkeys treated with charcoal-extracted porcine follicular fluid (pFF) in the early follicular phase induced luteal defects resembling those which occur spontaneously in women and monkeys. Here, we assessed whether luteal phase defects arising in association with induced FSH deficiencies during the early follicular phase can be treated by early FSH therapy. Rhesus monkeys were treated with pFF and human menopausal gonadotropin (hMG) (FSH:luteinizing hormone [LH], 3:1) on cycle days 1 to 3 or day 4, respectively. Daily femoral blood samples were analyzed for LH, FSH, and estradiol by radioimmunoassay. In the monkeys treated with the pFF-hMG combination, a single ovulation was uniformly noted at laparoscopy, and initial luteal phase elevations in serum progesterone levels were nearer those of normal ovulatory cycles than after pFF alone. These results suggest that FSH/LH treatment in the early follicular phase compensated, in part, for the pFF-induced deficiency in endogenous FSH levels.     

促排卵周期PCOS妇女子宫内膜纤维粘连蛋白及层粘连蛋白的表达

目的:了解促排卵药物氯米酚(CC)、hMG及GnRH-a对黄体中期子宫内膜内膜纤维粘连 蛋白(FN)及层粘连蛋白(LN)表达的影响。方法:应用单克隆抗体,采用免疫组织化学技术检测50 例正常妇女自然周期以及50例正常妇女,45例多囊卵巢综合征妇女应用CC／hCG,CC／hMG／hCG 及GnRH-a／hMG／hCG方案促排卵治疗后黄体中期子宫内膜FN和LN的表达。结果:子宫内膜FN 和LN表达在正常妇女自然周期着床窗口时呈现强阳性;而CC、hMG抑制FN和LN的表达,使 其阳性强度减弱,有显著性统计学差异P<0．01;GnRH-a对FN和LN抑制不明显。同时妊娠者较 未妊娠者FN和LN表达强度高。结论:CC／hCG及CC／hMG／hCG方案促排卵后黄体中期子宫内膜 中FN和LN表达下降或缺失,内膜容受性下降,妊娠率降低。