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Clin Exp Reprod Med > Volume 42(2); 2015 > Article
Park, Lee, Jeong, Rho, Song, and Choi: Efficacy of corifollitropin alfa followed by recombinant follicle-stimulating hormone in a gonadotropin-releasing hormone antagonist protocol for Korean women undergoing assisted reproduction

Abstract

Objective

To evaluate the effect of a gonadotropin-releasing hormone (GnRH) antagonist protocol using corifollitropin alfa in women undergoing assisted reproduction.

Methods

Six hundred and eighty-six in vitro fertilization-embryo transfer (IVF)/intracytoplasmic sperm injection (ICSI) cycles were analyzed. In 113 cycles, folliculogenesis was induced with corifollitropin alfa and recombinant follicle stimulating hormone (rFSH), and premature luteinizing hormone (LH) surges were prevented with a GnRH antagonist. In the control group (573 cycles), premature LH surges were prevented with GnRH agonist injection from the midluteal phase of the preceding cycle, and ovarian stimulation was started with rFSH. The treatment duration, quality of oocytes and embryos, number of embryo transfer (ET) cancelled cycles, risk of ovarian hyperstimulation syndrome (OHSS), and the chemical pregnancy rate were evaluated in the two ovarian stimulation protocols.

Results

There were no significant differences in age and infertility factors between treatment groups. The treatment duration was shorter in the corifollitropin alfa group than in the control group. Although not statistically significant, the mean numbers of matured (86.8% vs. 85.1%) and fertilized oocytes (84.2% vs. 83.1%), good embryos (62.4% vs. 60.3%), and chemical pregnancy rates (47.2% vs. 46.8%) were slightly higher in the corifollitropin alfa group than in the control group. In contrast, rates of ET cancelled cycles and the OHSS risk were slightly lower in the corifollitropin alfa group (6.2% and 2.7%) than in the control group (8.2% and 3.5%), although these differences were also not statistically significant.

Conclusion

Although no significant differences were observed, the use of corifollitropin alfa seems to offer some advantages to patients because of its short treatment duration, safety, lower ET cancellation rate and reduced risk of OHSS.

Introduction

Through the induction of multiple follicles, assisted reproduction techniques provide the highest possibility of achieving pregnancy for infertile couples. Nevertheless, controlled ovarian stimulation (COS) has been recognized as a painstaking process for many people. It involves the maintenance of extended control over endogenous reproductive hormones and continuous dosing with exogenous hormones via abdominal injection. The long gonadotropin-releasing hormone (GnRH) agonist protocol is the most commonly used protocol. It takes approximately three weeks, effectively preventing premature LH surges and maintaining multifollicular growth. In addition, gonadotropin injections have to be administered daily by the patient due to their short elimination half-life and rapid metabolic clearance [1]. Thus, fertility treatment is a complex process that can be physically and emotionally demanding for infertile patients. It is also closely related to success rates. Therefore, to lessen the burden of COS, a simpler and more convenient treatment approach is needed.
Corifollitropin alfa (Elonva, NV Organon, Oss, The Netherlands) is one of the most recently introduced multifollicular stimulants. This novel molecule is a fusion product of human follicle stimulating hormone (FSH) and the carboxy-terminal peptide of human chorionic gonadotropin (hCG) [2]. Its use was developed as part of a GnRH antagonist protocol. It has the same pharmacologic activity as FSH and recombinant follicle stimulating hormone (rFSH), but a slower absorption rate and approximately twice the half-life length of rFSH. Corifollitropin alfa is able to initiate and sustain follicular growth for an entire week, so a single injection can replace the first seven daily injections of gonadotropin in each ovarian stimulation treatment cycle prior to assisted reproduction [3,4]. Thus, corifollitropin alfa can reduce the number of injections needed for COS before in vitro fertilization (IVF) or intracytoplasmic sperm injection (ICSI) and may lower the treatment burden and stress.
The optimal dose of corifollitropin alfa has been calculated to be 100 µg for patients weighing ≤60 kg and 150 µg for patients weighing >60 kg [5,6]. Using these dosing criteria, previous studies have shown that administration of corifollitropin alfa is safe, effective, and well tolerated and that it does not result in antibody formation [3,4,6,7,8]. Tarlatzis et al. [9] reported no increase in the risk of ovarian hyperstimulation syndrome (OHSS) in infertile women receiving corifollitropin alfa; however, a recent systematic review suggested that there is evidence of increased ovarian response and risk of OHSS in corifollitropin alfa treatment [10]. Based on the current literature, more research is needed to assess whether a new protocol using corifollitropin alfa would benefit women undergoing infertility treatment.
In the present study, we retrospectively reviewed the records of patients treated with either corifollitropin alfa in the GnRH antagonist protocol or rFSH in the long GnRH agonist protocol (control group). We evaluated the treatment duration, estradiol (E2) concentration, total number of oocytes retrieved, quality of oocytes and embryos, number of embryo transfer (ET) cycles and ET cancelled cycles, risk of OHSS, and the chemical pregnancy rate in the two ovarian stimulation protocols.

Methods

1. Patient population

We retrospectively analyzed a total of 686 IVF/ICSI cycles occurring between May 2011 and May 2013. Patients were women aged 20-39 years old with a normal menstrual cycle (24-35 days) and a body mass index of 15-34 kg/m2. Women aged over 40 years were excluded. Hormonal profiles, response to stimulation, and reproductive outcome were reviewed from patients' records. The serum basal FSH level was measured on the second or third day of menstruation and the serum E2 level was measured on hCG administration day in all patients.

2. Treatment protocol

The stimulation consisted of a single dose of 100 or 150 µg corifollitropin alfa administered on day 2 or 3 of the treatment cycle, depending on patient weight as per the manufacturer's instructions (Elonva, N.V. Organon, Ravensburg, Germany). Patients with an earlier poor ovarian response to stimulation and expected low responders were treated with a starting dose of 150 µg corifollitropin alfa, regardless of their weight. Five days later (day 7 or 8 of the cycle), administration of a GnRH antagonist (Orgalutran, Schering-Plough, France or Cetrotide, Merck-Serono SA, USA) at a daily dosage of 0.25 mg was initiated until the day of oocyte retrieval. On day 8 of the stimulation, daily dose of rFSH (Gonal F, Merck-Serono SA, USA) or hMG (Merional, Pharmasure Ltd., Lamone, Switzerland) at a dose of 100-300 IU, depending on patient age, serum E2 concentration, and ovarian response, was administered until the day before oocyte retrieval.
In the long GnRH agonist protocol group, pituitary suppression was initiated with a GnRH agonist (Lorelin, Dongkook CO., LTD, Jincheon, Korea) from the mid-luteal phase of the previous cycle to the day of hCG administration. After pituitary down-regulation, the Lorelin dose was reduced and recombinant FSH (Gonal-F, Merck-Serono SA, USA) was started on the second or third day of the menstrual cycle. On day 2 to 3 of the menstrual cycle, blood samples were obtained by venipuncture for assays of basal FSH level.
To induce final oocyte maturation in both protocols, a recombinant hCG dose (rhCG, Ovidrel, Merck Serono SA, Geneva, Switzerland) of 250 µg was given as soon as two or three follicles >17 mm were present on ultrasound scan. Transvaginal ultrasound-guided oocyte retrieval was performed 36 hours after hCG injection.

3. IVF/ICSI

Retrieved oocytes were cultured in G-IVF medium (Vitrolife, Kungsbacka, Sweden) for 4-6 hours until insemination. In the cases of ICSI, after the cumulus-corona cells were removed by hyaluronidase (SAGE, Pasadena, USA) and mechanically aspirated with stepwise denuding pipettes for no more than 1 minute, the oocyte maturational profile was checked. Denuded oocytes were classified according to meiotic maturity as germinal vesicle (GV, characterized by the presence of this defining structure), metaphase I (MI, characterized by the absence of both a GV and an extruded first polar body), or metaphase II (MII, characterized by the presence of an extruded polar body in the perivitelline space). Immature oocytes (MI) were incubated in culture medium at 39℃ with a humidified atmosphere of 6% CO2. No hormones were added. Polar body extrusion was checked prior to ICSI. MI oocytes that extruded their polar body were named "rescued in vitro matured MII oocytes" (MI-MII). Fragmented or shrunken oocytes were classified as degenerated. ICSI was performed on mature oocytes at oocyte denudation (MII oocytes) and on oocytes that extruded the first polar body between oocyte denudation and ICSI (MI-MII oocytes).
Semen samples obtained by ejaculation in the morning of the oocyte retrieval day were liquefied at 37℃ for 30 minutes and centrifuged with SpermGrad (Vitrolife) made of two gradient (45%/90%) at 2,000 rpm for 5 minutes. After removal of supernatant, 2 mL of Ham's F-10 medium containing 0.4% BSA was layered over the sperm pellet prior to being centrifuged at 2,000 rpm for 5 minutes. After washing and swim-up procedures, the sperm in the supernatant were aspirated and used for insemination. The injected oocytes were cultured in G-1 v5 (Vitrolife) and overlaid with 6 mL of mineral oil (Sigma, USA) in Falcon 1007 culture dishes at 39℃ under 6% CO2.
Normal fertilization was assessed on the first day after insemination with the appearance of two pronuclei. The appearance of only one pronucleus or of more than two pronuclei in the cytoplasm was defined as abnormal fertilization. Embryo development, including blastomere number, size, and regularity, and the presence and percentage of fragmentation, was assessed on the morning of day 3 according to Veeck's classification system [11]. ET was performed on day 3 or day 4. The chemical pregnancy rate was determined by a serial serum β-hCG level of >10 mIU/mL 12 days after ET.

4. Statistical analysis

Mean values were expressed as the mean±standard deviation. Statistical analysis of mean values was performed using Student's t-tests. Statistical significance was defined as p<0.05. All analyses were performed using SPSS ver. 12.0 (SPSS Inc., Chicago, IL, USA).

Results

A total of 686 patients were enrolled in this study, between May 2011 and May 2013. The corifollitropin alfa group consisted of 113 initiated cycles corresponding to 110 patients, and the control group consisted of 573 initiated cycles corresponding to 502 patients. Patients' baseline characteristics and stimulation characteristics are presented in Table 1. As shown, there were no significant differences in age (corifollitropin alfa group, 32.8±3.9 years vs. control group, 33.1±3.5 years) and ovarian reserve markers (basal FSH, 7.66±2.6 mIU/mL vs. 5.2±2.6 mIU/mL). In addition, infertility factors between the two groups were similar (Table 1). In the corifollitropin alfa group, the duration of total treatment and additional rFSH was 9.5±1.5 days and 3.5±1.5 days, respectively. In the control group, the duration of the total stimulation was 23.8±2.4 days.
Data regarding responses to stimulation are presented in Table 2. The two groups did not show differences in endometrial thickness when checked on the hCG administration day. However, the mean E2 levels on the hCG administration day were lower in the corifollitropin alfa group than in the control group, an apparent difference that did not reach statistical significance. In the corifollitropin alfa group and in the control group, 1,480 (mean, 13.1±8.0) and 7,636 (mean, 13.4±8.6) oocytes were retrieved, respectively. Among them, 37 (2.5%) vs. 232 (3.0%) were MI-MII and 1,248 (84.3%) vs. 6,269 (82.1%) were MII oocytes at the time of cumulus removal in the corifollitropin alfa and control groups, respectively. Thus, the maturation rate of the retrieved oocytes was slightly higher in the corifollitropin alfa group than in the control group. However, there were no statistically significant differences between the two groups. When comparing the two groups in terms of good oocytes, fertilized oocytes, and grade I or II embryos, a similar trend was also observed. Seven patients (6.2%) in the corifollitropin alfa group and 47 patients (8.2%) in the control group had ET cycle cancellations due to insufficient ovarian response (lack of follicular development and cryopreservation of all embryos according to monofollicular recruitment, 3.5% vs. 4.7%) or risk of OHSS (2.7% vs. 3.5%). There was no significant difference in the ET cycle cancellation rate between the groups. The mean number of fresh embryos transferred for both treatment groups was 2.8±0.7 in the corifollitropin alfa group and 3.0±0.7 in the control group. The chemical pregnancy rates in both treatment groups were slightly higher in the corifollitropin alfa group (50/106, 47.2%) than in the control group (246/526, 46.8%), although there was no statistically significant difference.

Discussion

This study is the first to compare the effects of an antagonist protocol using corifollitropin alfa with the standard COS protocol. Over the past 20 years, the most commonly used COS protocol has been the long GnRH agonist protocol. The long GnRH agonist protocol takes approximately three weeks; it effectively prevents premature LH surges and maintains multifollicular growth. Daily self-injections for approximately three weeks are inconvenient; however, and represent one of the causes of patient stress and financial burdens. Olivius et al. [12] reported that one-third of couples discontinue treatment because of its psychological burden.
The first approach for shortening treatment duration and decreasing the number of injections was the use of the GnRH antagonist protocol. The use of GnRH antagonists decreases the duration of GnRH analog injections by approximately two weeks. Interestingly, Verberg et al. [13] demonstrated a reduced dropout rate in a GnRH antagonist group when compared to a GnRH agonist group, indicating that treatment duration and number of injections is an important factor in determining the risk of dropout.
The second development that can further improve the treatment strategy for IVF is the introduction of corifollitropin alfa. A single injection of corifollitropin alfa, a long-acting rFSH molecule, can replace seven days of daily gonadotropin injections and further decrease the number of injections required in the ovarian stimulation cycle [3,4,8,14,15]. In our study, the corifollitropin alfa COS cycle showed similar advantages, such as lower requirements for gonadotropin and shorter durations compared to the long GnRH agonist protocol, proving that it is a more favorable protocol than the standard long GnRH agonist protocol.
In assisted reproduction cycles, the growth of multiple follicles is supported by exogenous gonadotropins. The chance of achieving a pregnancy is related to the number of retrieved oocytes available for IVF/ICSI [16]. Devroey et al. [14] reported that corifollitropin alfa was highly effective in normal ovarian responders, with the number of oocytes retrieved found to be significantly higher compared to individuals injected daily with rFSH, and with similar pregnancy rates. Additionally, the serum E2 level on the day of hCG injection was not significantly different between treatment groups [3,14]. In the present study, even though there was a lower E2 concentration on the day of hCG injection and fewer retrieved oocytes in the corifollitropin alfa group than in the control group, the mean number of matured oocytes in the corifollitropin alfa group tended to be higher than in the control group. These results, although not statistically significant, may be related to the slightly higher chemical pregnancy rate. In addition, the ET cancellation rate and risk of OHSS were slightly lower in the corifollitropin alfa group than in the control group. Correspondingly, Polyzos et al. [17] reported that cancellation rates due to low ovarian response in the control group were similar to those of the corifollitropin alfa group. Tarlatzis et al. [9] reported that there was no higher risk for OHSS in infertile women who used corifollitropin alfa. However, the opposite was also reported by Mahmoud Youssef et al. [10], who found that the risk of cancellations was no higher but that the risk of OHSS was five times higher in the corifollitropin alfa group than in the rFSH group, although these differences were not statistically significant. Therefore, further research is needed to determine if corifollitropin alfa is safe in hyper-responders.
In conclusion, although no statistically significant differences were observed between the two groups, the use of corifollitropin alfa seems to offer some advantages to patients undergoing infertility treatment because of its short stimulation duration, safety, lower ET cancellation rate and reduced risk of OHSS.

Notes

Conflict of interest: No potential conflict of interest relevant to this article was reported.

References

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Table 1

Patient baseline and stimulation protocol characteristics

cerm-42-62-i001.jpg

Values are presented as mean±standard deviation or number (%).

GnRH, gonadotropin-releasing hormone; NA, non-applicable; NS, not significant; FSH, follicle stimulating hormone; rFSH, recombinant follicle stimulating hormone.

Table 2

Controlled ovarian stimulation results and IVF/ICSI outcomes in two treatment groups

cerm-42-62-i002.jpg

Values are presented as mean±standard deviation or number (%).

IVF/ICSI, in vitro fertilization-embryo transfer intracytoplasmic sperm injection; GnRH, gonadotropin-releasing hormone; NA, non-applicable; NS, not significant; E2, estradiol; hCG, human chorionic gonadotropin; GV, germinal vesicle; MI, metaphase I; ET, embryo transfer; OHSS, ovarian hyperstimulation syndrome.



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