Non-FSH vs FSH-priming in Cycles With CAPA-IVM Treatment

Not Applicable

Completed

• Conditions: FSH Priming; in Vitro Maturation
• Interventions: Procedure: FSH priming

• Registration Number: NCT05600972
• Lead Sponsor: Mỹ Đức Hospital

Brief Summary

In vitro oocyte maturation (IVM) is an assisted reproductive technology requiring minimal or no ovarian stimulation. In this technique, the immature oocytes were retrieved from follicles and subsequently cultured matured, meaning that GV oocytes reached MII in vitro (ASRM, 2021).

Currently, there is no consensus on the unique IVM protocol. However, recommended protocols that are being utilized include IVM with and without hCG (Standard IVM) and CAPA-IVM.

As mentioned previously, FSH priming before oocyte retrieval for IVM remains controversial. However, FSH is known as a hormone for the maturation of the follicles. Therefore, during oocyte maturation (IVM) cycles, FSH is used to "prime" follicular development. Generally, many studies showed a trend of a higher number of MII oocytes obtained after IVM after using FSH priming.

In animal models, Younis et al. (1994) observed a significant increase in the number of mature oocytes when performing IVM in cynomolgus monkeys (Macaca fascicularis) with a dose of 1000 IU of PMSG (pregnant mare's serum gonadotropin) in the follicular phase (Younis et al., 1994). Similarly, Wynn et al. (1998) conducted a study on mice. The results from this study revealed that a higher number of MII oocytes was observed. Still, the blastulation rate and the number of blastomeres were significantly lower than that without FSH priming. On the other hand, FSH activates meiosis resumption (Wynn et al., 1998).

In addition, an RCT of 28 patients comparing three days of 150 IU of FSH before the IVM aspiration group with the control group also showed an improvement in implantation rates in IVM cycles with FSH priming (Mikkelsen et al., 2001). The studies mentioned above both used the non-hCG IVM protocol. Other studies by Shalom-Paz et al. (2011) and Choavaratana et al. (2015) showed superiority in the number of MII oocytes.

There has been no data on the impact of not using FSH priming in CAPA-IVM cycles. Therefore, this RCT will investigate the efficacy of CAPA-IVM with and without FSH priming.

Detailed Description

3.1. Screening for eligibility and randomization

* This trial will be conducted at My Duc Hospital, Ho Chi Minh City, Viet Nam.

* Women who are potentially eligible will be provided information about the trial at the time of IVM treatment indication.

* Screening for eligibility will be performed on the day of the first visit when the IVM 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.

* All patients selected for this study will undergo a 7-day COCPs administration to induce menstruation before entering both arms.

* Women will be randomized (1:1) to either non-FSH or FSH priming:

3.2 Oocytes retrieval The oocyte retrieval will be performed four days after the randomization, accordingly to the current routine procedures.

* An ultrasound scan will be performed to exclude the development of any dominant follicle.

* Patients randomized into the FSH priming arm will receive two days of FSH injections at 150 IU/day.

* Oocyte retrieval will be scheduled 42 hours after the last FSH injection.

* In the non-FSH arm, the COC will be retrieved on the same retrieval day as the FSH-treated arm.

* All the punctured follicular cohorts will be monitored carefully by ultrasound on the day before and on OPU day.

3.3 CAPA and Maturation culture: CAPA and Maturation culture will be performed routinely following current laboratory protocols.

* ICSI will be used for the fertilization of mature oocytes.

* The freeze-only will be performed, and all good embryos will be frozen on day 5 for subsequent embryo transfer.

3.4 Frozen embryo transfer After oocyte retrieval, a blister of oral contraceptive pills will be indicated to induce the bleeding.

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) 8 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 will be started when endometrial thickness reached 7 mm or more. Elective single embryo transfer with a blastocyst will be performed. Embryos will be thawed on the day of embryo transfer, five days after the start of progesterone. Two hours after thawing, surviving embryos will be transferred into the uterus under ultrasound guidance. Embryos will be transferred into the uterine cavity.

3.5 Pregnancy test and ultrasound to confirm fetal viability: A pregnancy test will be performed by measuring the blood beta-hCG level two weeks after embryo transfer. If the pregnancy test is positive (≥25mIU/mL), the patient is indicated to use exogenous estrogen (transdermal or oral) 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.

3.6 Obstetric and neonatal outcomes: All data relating to the delivery process and neonatal care will be recorded by the data management system of IVFMD.

Study Timeline

• Study First Submitted: 2022-10-27
• Study First Submitted QC: 2022-10-27
• Study First Posted: 2022-11-01
• Study Start: 2023-01-02
• Primary Completion: 2023-07-10
• Status Verified: 2024-03
• Study Completion: 2024-04-25
• Last Update Submitted: 2024-12-24
• Last Update Posted: 2024-12-27

Recruitment & Eligibility

• Status: COMPLETED
• Sex: Female
• Target Recruitment: 120

Inclusion Criteria

• Aging from 18 to 37
• Diagnosed with PCOS followed by Rotterdam criteria
• Having an indication for CAPA-IVM treatment
• Agree to have all embryos frozen on day 5/6.
• Agree to have one blastocyst (if of good quality defined as 3BB or above) or up to two blastocysts (if no good quality are available) transferred in a subsequent frozen transfer
• Having ≤ 2 IVM/IVF attempts

Exclusion Criteria

• A previous ovarian stimulation (for OI or IVF) within the previous three months
• Cycles with oocytes donation
• Uterine or ovarian abnormalities
• Previous evidence of a very low oocyte maturation without suspicion of FSH /LH receptor defect
• Cycles with sperms retrieved after PESA/TESE/microTESE

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
FSH priming	FSH priming	Routine CAPA-IVM treatment will be performed. Patients who are randomized into the FSH priming arm will receive two days of FSH injections of 150 IU/day. Oocyte retrieval will be scheduled at 42 hours after the last FSH injection.

Primary Outcome Measures

Name	Time	Method
Number of matured oocytes after CAPA-IVM cultured	2 day after oocyte retrieval	Number of oocytes at MII stage after CAPA-IVM cultured

Secondary Outcome Measures

Name	Time	Method
Implantation rate	3 weeks after embryo transfer	Implantation rate is defined as the number of gestational sacs per the number of embryos transferred.
Ectopic pregnancy rate	4 weeks after embryo transfer	Ectopic pregnancy is defined as pregnancy outside the uterine cavity, diagnosed by ultrasound, surgical visualization, or histopathology.
Ongoing pregnancy rate	10 weeks after embryo transfer	Ongoing pregnancy is defined as pregnancy with a detectable heart rate at 12 weeks' gestation or beyond. The ongoing pregnancy rate is the total ongoing pregnancy per the number of embryos transferred.
Live birth rate	After delivery at 12 months after randomization	Defined as the complete expulsion or extraction from a woman of a product of fertilisation, after 24 completed weeks of gestational age; which, after such separation, breathes or shows any other evidence of life, such as heart beat, umbilical cord pulsation or definite movement of voluntary muscles, irrespective of whether the umbilical cord has been cut or the placenta is attached. A birth weight of 350 grams or more can be used if gestational age is unknown (twins are a single count).
Miscarriage rate	2-10 weeks after embryo transfer	Miscarriage is defined as the spontaneous loss of an intra-uterine pregnancy prior to 12 completed weeks of gestational age).
Multiple pregnancy rate	5 weeks after embryo transfer	Multiple pregnancies are defined as the presence of more than one sac at early pregnancy ultrasound (6-8 weeks gestation).
Clinical pregnancy rate	5 weeks after embryo transfer	at least one gestational sac on ultrasound at 7 weeks' gestation with the detection of heart beat activity
Small for gestational age	After delivery at 12 months after randomization	Less than 10th centile for gestational age at delivery based on standardized ethnicity-based charts
Admission to NICU	After delivery at 12 months after randomization	The admittance of the newborn to NICU
Positive pregnancy test rate	2 weeks after embryo transfer	A positive pregnancy test is defined as a serum human chorionic gonadotropin level greater than 25 mIU/mL. The positive pregnancy test rate is the total positive pregnancy per the number of embryos transferred.
Birth weight	At delivery at 12 months after randomization	including low birth weight (defined as weight \< 2500 gm at birth), very low birth weight (defined as \< 1500 gm at birth), high birth weight (defined as \>4000 gm at birth), and very high birth weight (defined as \>4500 gm at birth).
Gestational diabetes mellitus	At 24 weeks of gestation or beyond at 12 months after randomization	Using a 75g oral glucose tolerance test
Hypertensive disorders of pregnancy	At 20 weeks of gestation or beyond at 12 months after randomization	Pregnancy-induced hypertension, pre-eclampsia and eclampsia
Antepartum hemorrhage	After delivery at 12 months after randomization	Including placenta previa, placenta accreta, and unexplained hemorrhage
Congenital anomaly	After delivery at 12 months after randomization	Any major congenital anomaly will be included
Preterm delivery rate	At delivery at 12 months after randomization	Preterm delivery defined as delivery at \<24, \<28, \<32, \<37 completed weeks.
Large for gestational age	After delivery at 12 months after randomization	Birth weight \>90th centile for gestation, based on standardized ethnicity-based charts
Perinatal mortality	After delivery at 12 months after randomization	The death of a fetus or infant from 24 weeks of gestation to the end of the neonatal period of 4 weeks after birth.

Trial Locations

Locations (1)

IVFMD - My Duc Hospital; 🇻🇳 Ho Chi Minh City, Vietnam