Dydrogesterone Primed Ovarian Stimulation Versus Fixed Gonadotropin Releasing Hormone Antagonist Protocol for Oocyte Accumulation in Low Ovarian Reserve Patients: A Randomized Controlled Trial

Tam Anh TP. Ho Chi Minh General Hospital2 sites in 1 country730 target enrollmentJune 22, 2023

ConditionsDiminished Ovarian Reserve

Overview

Phase: Not Applicable
Intervention: Not specified
Conditions: Diminished Ovarian Reserve
Sponsor: Tam Anh TP. Ho Chi Minh General Hospital
Enrollment: 730
Locations: 2
Primary Endpoint: Ongoing pregnancy rate after the first embryo transfer
Status: Recruiting
Last Updated: 4 months ago

Overview Investigators Eligibility Criteria Outcomes Sites Similar Trials

Overview

Brief Summary

One of the barriers in patients with diminished ovarian reserve (DOR) is the significantly reduced number of oocytes resulting in fewer oocytes collected and embryos formed. Many ovarian stimulation strategies have been proposed to improve oocyte or embryo quantity which is oocyte accumulation could be a potential option with a comparable success rate and reasonable cost.

Progestin-primed ovarian stimulation (PPOS) protocol could be suggested as an alternative method of premature Luteinizing hormone (LH) prevention in IVF. It favors segment Assisted Reproductive Technology (ART) cycles such as frozen embryo transfer (FET), oocyte donor, fertility preservation, and oocyte accumulation set. The protocol is more patient-friendly and affordable than the GnRH antagonist regimen regarding LH suppression during ovarian stimulation.

Many PPOS protocols have been proposed in which the three most common agents include Dydrogesterone (DYG), Micronised Progesterone (MIP), and Medroxyprogesterone acetate (MPA). Indeed, DYG seems to have some advantages, including oral administration and safety which has been used in the treatment of threatened abortion. Initial evidence of PPOS protocol suggests that oocyte quantity and quality are comparable with other ovarian stimulation regimens. However, data related to the PPOS protocol has not been well documented, including Dydrogesteron-primed ovarian stimulation (DPOS).

There has not been an RCT with a large sample size and well-designed to provide more substantial evidence. A randomized trial to compare the effectiveness of PPOS and GnRH antagonist protocol in IVF is urgently needed.

Detailed Description

Screening for eligibility and randomization * This trial will be conducted at Tam Anh TP. Ho Chi Minh General hospital, Ho Chi Minh City, Vietnam and Tam Anh General hospital, Ha Noi, Vietnam * Women who are potentially eligible will be provided information about the trial when IVF treatment is indicated * Patients will be provided information related to the study together with the informed consent documents. Signed informed consent forms will be obtained by the investigators from all women before the enrolment. * Women will be randomized (1:1) to either DPOS or GnRH antagonist protocol Ovarian stimulation * The patients will be stimulated with the same protocol in all OS cycles after randomization. * For DPOS arm (Group I): Patients will be co-administered with oral DYG (Duphaston) 30mg/d and Human Menopausal Gonadotrophin (hMG) 225 IU/day (IU/d) via intramuscular injection from menstrual cycle day 2 - 4 (CD2 - CD4) to the day of final oocyte maturation. * For GnRH antagonist arm (Group II): In the fixed GnRH antagonist protocol, hMG 225 IU will be administered daily from menstrual cycle day 2 - 4 (CD2 - CD4). Daily administration of GnRH antagonist (Ganirelix 0.25 mg) will be initiated on the 5th day of stimulation. Treatment with hMG and GnRH antagonist will be continued daily until the day of final oocyte maturation triggering. Oocytes retrieval and cryopreservation * After 36 hours of final maturation injection, all follicles greater than 12mm in diameter will be aspirated. * Oocyte cryopreservation will be applied to collect at least 7 ± 1 oocytes * Matured oocytes will be frozen by vitrification (CRYOTEC® Method) Oocyte thawing and ICSI * For the last ovarian stimulation cycle, based on the aim to collect at least 7 ± 1 oocytes, the clinician will determine the last ovarian stimulation cycle on the day of final oocyte maturation. * The frozen oocytes of the previous OS cycle will be thawed; all fresh and frozen oocytes will be fertilized by ICSI. * The thawing process will follow the CRYOTEC® Method * ICSI will be used for the fertilization of mature oocytes. Embryo cryopreservation * Both the fresh and frozen fertilized oocytes continue to culture in the CXCM medium (Irvine Scientific., USA) to blastocyst. * Freeze-all strategy is applied in both arms, then the frozen embryo will be transferred in the next cycle. Endometrium preparation and embryo transfer * Endometrial preparation with hormonal replacement therapy will be performed. In the following cycle, the endometrium will be prepared using oral estradiol valerate (Valiera®; Laboratories Recalcine) 6 mg/day starting from the second or third day of the menstrual cycle. The endometrial thickness will be monitored from day six onwards, and vaginal progesterone (Cyclogest®; Actavis) 800 mg/day plus dydrogesterone (Duphaston 10mg) at the dose of 10mg twice daily will be started when endometrial thickness reaches 8 mm or more. Elective single blastocyst transfer will be performed. * Embryos will be thawed on the day of embryo transfer, five or six days after the start of progesterone depending on the day-5 or day-6 embryo, respectively. Embryos will be transferred into the uterine cavity under ultrasound guidance. Pregnancy test and ultrasound to confirm fetal viability * A pregnancy test will be performed by measuring the blood beta-hCG level 10 - 11 days after embryo transfer. If the pregnancy test is positive (≥25mIU/mL), the patient is indicated to use exogenous estrogen and progesterone until at least 12 weeks of gestation. * A pregnancy ultrasound will be performed three weeks after the positive pregnancy test equal to 7 weeks of gestational age. * The primary endpoint is ongoing pregnancy (11 - 12 weeks of gestation) after the first embryo transfer

Registry

clinicaltrials.gov

Start Date

June 22, 2023

End Date

December 31, 2027

Last Updated

4 months ago

Study Type

Interventional

Study Design

Parallel

Sex

Female

Investigators

Sponsor

Tam Anh TP. Ho Chi Minh General Hospital

Responsible Party

Principal Investigator

Nhu H Giang

MD., MCE.

Tam Anh TP. Ho Chi Minh General Hospital

Eligibility Criteria

Inclusion Criteria

•Woman aged between 18 and 37 years
•AFC ≤ 5 and/or AMH ≤ 1.2 ng/ml
•Agree to perform freeze-all strategy and single frozen blastocyst embryo transfer

Exclusion Criteria

•Oocyte recipient
•Indication of preimplantation genetic testing
•Known allergic reactions to medications in the Study (progesterone products, GnRH antagonist….)
•Basal FSH above 15mIU/mL.
•Have contraindications of ART treatment (e.g. critical or acute diseases)
•Retrieved sperm
•Repeated Implantation failure ( ≥ 3 failed embryo transfers with good-quality embryos)
•Inability to comply with the study procedures.
•Patients with a history of thyroid cancer who are on hormone replacement therapy or those diagnosed with thyroid diseases at the time of eligibility assessment

Outcomes

Primary Outcomes

Ongoing pregnancy rate after the first embryo transfer

Time Frame: 11 - 12 weeks of gestation

Ongoing pregnancy is defined as pregnancy with a detectable heart rate at 11 - 12 weeks of gestation after the completion of the first transfer.

Secondary Outcomes

Serum LH level(On day 1, day 5, day 8 of FSH administration, on the trigger day and 12 hours after the trigger injection)
Serum Estradiol level(On day 1, day 5, day 8 of FSH administration, on the trigger day and 12 hours after the trigger injection)
Premature LH surge(on the day of trigger, an average of 2 weeks after FSH administration)
Number of MII oocyte(On the oocyte retrieval day, an average of 2 weeks after FSH administration)
Number of survival oocyte(On the oocyte retrieval day of the ovarian stimulation cycle for ICSI, an average of 2 weeks after FSH administration)
Miscarriage(Within 12 weeks of gestation)
Duration of ovarian stimulation(From the day 1 of FSH administration to the day of trigger, an average of 2 weeks after FSH administration)
Fertilization rate per oocyte inseminated/injected(On the oocyte retrieval day of the ovarian stimulation cycle for ICSI, an average of 2 weeks after FSH administration)
Top-quality blastocyst rate(Day 5 and Day 6 after ICSI day)
Positive pregnancy test(11 days after the first transfer)
Ectopic pregnancy rate(Within 12 weeks of gestation)
Adverse events(Through study completion of each individual patient, an average of 6 months)
Quality of life score(On day 1 of FSH administration of the first ovarian stimulation cycle for oocyte vitrification and on the trigger day of the ovarian stimulation cycle for ICSI)
Serum Progesterone level(On day 1, day 5, day 8 of FSH administration, on the trigger day and 12 hours after the trigger injection)
Blastocyst rate(Day 5 and Day 6 after ICSI day)
Biochemical pregnancy(Within 12 weeks of gestation)
Multiple pregnancy rate(Within 12 weeks of gestation)
Total dose of FSH(From the day 1 of FSH administration to the day of trigger, an average of 2 weeks after FSH administration)
Number of Cumulus-oocyte complex(On the oocyte retrieval day, an average of 2 weeks after FSH administration)
Embryo-cleavage rate(Day 3 after ICSI day)
Number of survival blastocyst(Day 5 and Day 6 after ICSI day)
Implantation rate(Within 12 weeks of gestation)
Drop-out(Through study completion, approximately within 2 years)