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UnknownNCT05737381

Quality of Human Embryos in IVF, Culturing in Differentiated Oxygen

Can a Differentiated Oxygen Setup Improve Embryo Quality and Increase the Number of Usable Embryos After in Vitro Fertilization (IVF)?

Status
Unknown
Phase
N/A
Study type
Interventional
Enrollment
350 (estimated)
Sponsor
Odense University Hospital · Academic / Other
Sex
Female
Age
18 Years – 41 Years
Healthy volunteers
Accepted

Summary

The goal of this clinical trial is to evaluate the importance of differential O2 tension to the developing embryos. As a secondary aim, we investigate the levels of reactive oxygen species (ROS) in spent media from the developing blastocysts. This is a prospective, interventional multicenter study using sibling embryos. Woman (age 18-41 and normal weight) undergoing assisted reproductive technology (ART) can be included in the study. Patients included in the project will follow standard IVF protocol and treatment. By retrieving ≥ 8 oocytes after pickup and upon prior acceptance by the patient, she/the couple can be included in the study. According to standard treatment, both groups of oocytes will be placed in an incubator with 5% O2.After 3 days of cultivation, the dishes with the study-embryos will be transferred to an incubator with 2% O2. The control embryos will remain in the conventional 5% O2 incubator. On the fifth day, the embryos will be evaluated, and the blastocyst with expected greatest implantation potential will be transferred to the patients uterus. Surplus embryos with expected implantation potential will be cryopreserved. After transfer or cryopreservation, the media from the wells with used blastocysts will be collected and stored for ROS analysis. Value for public Health: If our hypothesis is confirmed, we will be able to optimize the developmental conditions and decreased ROS levels for the embryo in vitro. From a clinical perspective, this could affect the implantation rate of the blastocyst and thus the success of pregnancies for infertile couples while reducing the number of treatments to obtain a viable pregnancy.

Detailed description

The goal of this clinical trial is to evaluate the importance of differential O2 tension to the developing embryos. As a secondary aim, we investigate the levels of reactive oxygen species (ROS) in spent media from the developing blastocysts. This is a prospective, interventional multicenter study using sibling embryos. Woman (age 18-41 and normal weight) undergoing assisted reproductive technology (ART), with planned IVF or intracytoplasmic sperm injection (ICSI) cycles can be included in the study. Patients included in the project will follow standard IVF protocol and treatment including hormonal injections, oocyte pick-up, embryo transfer and blastocyst cryopreservation. No further examinations or deviation from standard treatment is necessary in order to participate in the project. By retrieving ≥ 8 oocytes after pickup and upon prior acceptance by the patient, she/the couple can be included in the study. The minimum number of 8 oocytes has been determined to ensure an average of two blastocysts. The oocytes, will be divided into 2 groups. The first part of the collected oocytes will be included as controls, whereas the second part of the collected oocytes will be included as study group. According to standard treatment, both groups of oocytes will be placed in an incubator with 5% O2. From time-lapse videos, observations of fertilization and cleavage after 20 hours ± 1h and 44 hours ± 1h, respectively will be annotated. After 3 days of cultivation (68h± 1h), the dishes with the study-embryos will be transferred to a time-lapse incubator with ultralow O2 tension (2%). The control embryos will remain in the conventional 5% O2 time-lapse incubator. On the fifth day, the embryos will be evaluated by a trained embryologist, and the blastocyst with expected greatest implantation potential will be transferred to the patients uterus. Surplus embryos with expected implantation potential will be cryopreserved. After transfer or cryopreservation, the media from the wells with used blastocysts will be collected and stored for ROS analysis. Primary outcome: a) Improved morphokinetics parameters; decreased time difference from 5-cell (t5) to blastocyst stage (tB) in the embryos cultured in differential O2 tensions. As secondary outcomes: 1. Decreased ROS-activity in spent media from the developing blastocysts cultivated in differential O2 tensions. 2. Number of transferable/vitrified blastocyst in both study and test groups 3. Verification of clinical pregnancy, using ultrasound scanning around week 7. All pregnancies or miscarriage will be registered for all patients if possible. Value for public Health: If our hypothesis is confirmed as expected, we will be able to optimize the developmental conditions i.e. faster developmental rate from t5 to tB and decreased ROS levels for the embryo in vitro. From a clinical perspective, this could affect the implantation rate of the blastocyst and thus the success of pregnancies for infertile couples while reducing the number of treatments to obtain a viable pregnancy.

Conditions

Interventions

TypeNameDescription
OTHERDifferential oxygen tensionBy culturing the embryos in a differential O2 set-up, changing the O2 tension from reduced (5% O2) to ultralow (2% O2) from day 3 to day 5 of embryo development in vitro, we mimic the physiological differential changes in O2 as the embryo migrate from the oviduct to the uterus and develops in vivo.

Timeline

Start date
2022-09-15
Primary completion
2024-12-01
Completion
2025-12-01
First posted
2023-02-21
Last updated
2023-02-27

Locations

1 site across 1 country: Denmark

Source: ClinicalTrials.gov record NCT05737381. Inclusion in this directory is not an endorsement.