Study of Abnormally Fertilized Embryos

Not yet recruiting

• Conditions: Infertility (IVF Patients)

• Registration Number: NCT06940973
• Lead Sponsor: Igenomix

Brief Summary

The goal of this observational study is to determine the diploidy rate of haploid and triploid embryos from in vitro fertilization (IVF) cycles. The main questions it aims to answer are:

* Can a molecular genetic fertilization check of abnormally fertilized embryos be used to expand opportunities for couples undergoing assisted reproduction treatment?

* Is the chromosomal loss or gain present in abnormally fertilized embryos predominantly maternal in origin?

For this purpose, we will evaluate the morphokinetics and ploidy of about 300 embryos with different types of abnormal pronuclear patterns (1PN, 2.1PN, and 3PN) that reach the blastocyst stage. Whenever possible, embryos with a non-diploid chromosomal complement will also be assessed to determine the origin (maternal or paternal) of the chromosomal set that has been lost or gained.

Study subjects will follow their previously scheduIed IVF/ICSI treatment and no additional visits/interventions will be required for participating.

Detailed Description

Chromosomes are cellular structures containing the majority of the genetic information of a living organism. Gametes (oocytes and spermatozoa) contain only a single set of 23 chromosomes within structures known as pronuclei (PN). Upon fertilization, the 23 chromosomes from the oocyte and the 23 chromosomes from the sperm combine to form a 2PN zygote, which contains a total of 46 chromosomes.

In assisted reproduction (ART) laboratories, the embryologists can determine through morphological evaluation whether the fertilization process was normal (2PN) or abnormal (0PN, 1PN, or \>2PN). For an ART treatment, only a successfully fertilized oocyte (2PN) that develops to the blastocyst stage may be suitable for embryo transfer. However, previous studies have demonstrated that some embryos from oocytes with abnormal fertilization may possess a normal chromosomal content and could be used in ARTs when embryos from normal fertilization are not available.

There are genetic analysis techniques to determine not only if an embryo is euploid (contains a normal number of chromosomes) but also to assess if it is haploid, diploid or triploid (1PN, 2.1PN, and 3PN respectively). These techniques may be applied to "rescue" embryos with abnormal fertilization that are currently being discarded. This approach could be beneficial for IVF patients with a limited number of viable embryos available (diminished ovarian reserve cases, advanced maternal age, poor response to ovarian stimulation, etc.).

The current prospective and observational study has been approved by the competent Research Ethics Committee and every potential participant will be asked to sign the study informed consent.

The 300 embryos that will be part of the study will be recruited in the laboratory of the collaborating center on the day of fertilization after performing the conventional IVF procedures. Following these same routine procedures, biological samples from both parents will also be stored to perform the genetic analysis to determine the origin of the chromosomal anomalies. A biopsy will be taken from the selected embryos when they reach the blastocyst stage for the genetic analysis that will allow detecting whether there is indeed any chromosomal anomaly. All embryos not confirmed as chromosomally normal will be thawed, washed, and cultured for a second biopsy to confirm their previous diagnosis and the origin of the chromosomal abnormalities. For this new analysis, in addition to the biopsies, individual samples of the culture media of the thawed blastocysts will be collected and stored. Samples will be shipped to Igenomix for the genetic research and further data analysis.

The expected duration of the study is 18 months. Embryos will be included in the participating center for an estimated period of 13 months. Participants involvement in the study is just linked to the moment of the consent form signature. Exceptionally, embryos from abnormal fertilization that were informed as chromosomally normal after the first biopsy can be considered to transfer providing there are no other embryos available. If the patient decides to proceed with the transfer, her clinical follow-up will be part of the study until achieving ongoing pregnancy (12 gestational weeks). After that, her participation in the study will end but her physician will continue monitoring the pregnancy until delivery, if applicable, in accordance with the standard clinical practice.

Study Timeline

• Status Verified: 2025-04
• Study Start: 2025-04
• Study First Submitted: 2025-04-16
• Study First Submitted QC: 2025-04-16
• Last Update Submitted: 2025-04-16
• Study First Posted: 2025-04-23
• Last Update Posted: 2025-04-23
• Primary Completion: 2026-09
• Study Completion: 2026-09

Recruitment & Eligibility

• Status: NOT_YET_RECRUITING
• Sex: All
• Target Recruitment: 300

Inclusion Criteria

• ART patients who sign the Informed Consent of the study.
• Age: oocytes from women ≤ 49 years and semen from men ≤ 60 years. Donation of gametes is allowed.
• ≥1 blastocysts from oocytes with an abnormal pronuclear pattern (1PN, 2.1PN, and/or 3PN) and with the presence of 2 polar bodies (PB), cultured in a time-lapse incubator.

Exclusion Criteria

• No exclusion criteria have been considered for this study.

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Primary Outcome Measures

Name	Time	Method
Diploidy rate in haploid embryos from IVF/ICSI	3 months	Number of 2PN blastocysts from abnormally fertilized oocytes (1PN)
Diploidy rate in triploid embryos from IVF/ICSI	3 months	Number of 2PN blastocysts from abnormally fertilized oocytes (2.1PN and 3PN)

Secondary Outcome Measures

Name	Time	Method
Origin of the chromosomal abnormalities in embryos with a non-diploid chromosomal content	6 months	To determine the origin (maternal or paternal) of the chromosomal set that has been lost or gained.
Ectopic pregnancy rate of euploid embryos from abnormal fertilization	4-5 weeks after the embryo transfer	Number of pregnancies outside the uterine cavity, diagnosed by ultrasound, surgical visualization or histopathology, per number of pregnancies.
Pregnancy rate of euploid embryos from abnormal fertilization	2 weeks after the embryo transfer	Number of patients with positive serum level of β-human chorionic gonadotropin (βhCG \> 25 mIU/ml) per embryo transfer. Beta-hCG will be measured at day 12±2 after the embryo transfer.
Implantation rate of euploid embryos from abnormal fertilization	Up to 4 weeks after the embryo transfer	Number of gestational sacs observed by vaginal ultrasound divided by the number of embryos transferred.
Clinical miscarriage rate of euploid embryos from abnormal fertilization	Up to 12 gestational weeks	Number of spontaneous pregnancy losses before week 12, in which a gestational sac/s was previously observed, per number of pregnancies.
Ongoing pregnancy rate of euploid embryos from abnormal fertilization	Over 12 gestational weeks	Number of pregnancies up to 12 gestational weeks (at least one fetus with a discernible heartbeat diagnosed) achieved per each embryo transfer.
Voluntary termination rate of euploid embryos from abnormal fertilization	Up to 12 gestational weeks	Number of voluntary terminations before week 12 per number of pregnancies.
Biochemical pregnancy rate of euploid embryos from abnormal fertilization	4 weeks after the embryo transfer with euploid embryos from abnormal fertilization	Number of pregnancies diagnosed only by β-hCG detection without a gestational sac visualized by vaginal ultrasound, per number of pregnancies.

Trial Locations

Locations (1)

Equipo Médico Crespo Valencia; 🇪🇸 Valencia, Comunidad Valenciana, Spain