Overview
In current treatments for In Vitro Fertilization (IVF) and Intracytoplasmic Sperm Injection (ICSI), the creation of multiple embryos is a common practice. The decision to transfer an embryo is traditionally based on the morphological assessment by an embryologist, which, due to its nature, must be considered subjective. In certain regions, invasive embryo biopsy techniques, such as Preimplantation Genetic Testing for Aneuploidy (PGT-A), are used to detect chromosomal abnormalities and support decision-making regarding embryo transfer. However, there is a medical need to improve the outcomes of IVF/ICSI cycles through non-invasive and objective methods.
As an academic center, our goal is to investigate promising innovative methods that, if successful, can be integrated into standard care. The aim of the Aurora blastocyst study is to evaluate the effectiveness of the Aurora test in selecting five-day-old embryos for fresh or frozen embryo transfer. Additionally, the study assesses whether the use of the Aurora test results in an increase in clinical pregnancy rates and live birth rates.
The Aurora test is a non-invasive test for evaluating oocyte competence and subsequently the embryo obtained in an ICSI cycle (In Vitro Fertilization). This test is performed on cumulus cells (CC) surrounding the oocyte and uses mRNA expression profiles to evaluate the developmental potential of the oocytes. The test has been developed and validated for patients stimulated with human menopausal gonadotropins (HP-hMG), an ovulatory dose of hCG, and a single embryo transfer on day 3. The test will be performed by Fertiga nv, upon receiving patients cumulus cells.
At our center, based on earlier research, the standard care involves a single embryo transfer on day 5. In this study, embryo selection based on morphology is compared with embryo selection based on morphology and the Aurora test. Finally, this study aims to evaluate the impact of the Aurora test score on the embryologist's selection decision for transferring a five-day-old embryo for single embryo transfer, by assessing parameters such as pregnancy rates and live birth rates.
Description
The only additional procedure involves analyzing waste material i.e. cumulus cells by Fertiga nv. RNA is extracted from the cumulus cells and analyzed using qRT-PCR. Cumulus cells iare then assigned to a score based on its RNA levels. This score, known as the Aurora test score, indicates the pregnancy potential of the associated oocyte. Using this evaluation, the embryologist will select the best embryo candidates for transfer. The embryo with the highest Aurora test score from this group will be transferred. If there is no live birth and the trial has not been concluded, the patient may consider frozen/thawed embryo transfer cycles. These consecutive frozen/thawed embryo transfer cycles will also be based on the Aurora test score.
The two experimental arms (i.e. fresh SET and frozen/thawed SET) will each include approximately 140 informative patients prospectively recruited for the study undergoing ICSI, with a day 5 blastocyst transfer chosen by embryo morphology and Aurora Test. Taking into account a dropout rate of 40%, 234 patients will be required in each experimental arm. All patients in the experimental arm need to fulfil the inclusion and exclusion criteria as detailed in the protocol. The patients signing the informed consent form (ICF) will have their Cumulus Oocyte complex (COC) numbered at oocyte pick-up (OPU), tracked individually, cumulus cells will be individually denuded and then be snap-frozen and analysed for mRNA expression using oocyte quality predictive genes and two control genes. The RNA expression analysis will be done at Fertiga's Molecular Laboratory. The lab technician/embryologist will track the individual embryos during their growth as usual and classify the embryos based on their routine morphological quality parameters. From the embryos considered for transfer i.e. based on the morphology grading, the one with the highest Aurora Test ranking will be selected for single blastocyst transfer.
The study will use two matched historical control groups, each containing 280 patients, resulting in 560 control patients treated within the last 4 years at the Department of Reproductive Medicine of Ghent University Hospital preceding the initiation of the current study (retrospective study cohort). All control patients need to fulfil all the inclusion and exclusion criteria. These control patients will be matched controls where each patient undergoing the Aurora Test will be matched with two patients that had a single embryo transfer based only on morphological grading features. The controls will be matched for stimulation protocol, transfer regime (fresh or frozen/thawed), ovulation trigger (hCG/dual trigger/GnRH agonist), age category (\<31, 31-35, \>35) and for number of good/top quality D5 embryos (2/ 3-4 / 5-6 / \>6).
Eligibility
Inclusion Criteria:
- Patients undergoing ICSI treatment, with maximum 40 years of age at time of signing the ICF
- Patients stimulated with GnRH antagonist/HP-hMG or GnRH antagonist/recFSH, scheduled for fresh SET Day 5 with hCG or dual trigger (hCG + GnRH agonist) or Patients stimulated with GnRH antagonist/HP-hMG or GnRH antagonist/recFSH, scheduled for delayed transfer of frozen/thawed SET Day 5 after a GnRH agonist trigger, hCG or dual trigger (hCG + GnRH agonist).
- Patients undergoing a first, second, third or fourth ICSI cycle
- Women with body mass index (BMI) higher than 17 and lower than 35
- Women with regular cycles (between 24 and 35 days)
- Non-and mild-smokers (\<10 cigarettes/day)
- AMH 1,1 ng/ml (Bologna criteria), excluding poor responders according to Bologna criteria
- Patients with fresh ejaculated semen or frozen donor semen
Exclusion Criteria:
- Patients with less than 8 follicles (≥12mm) on the day of their last echo visit before OPU.
- Women with history of poor oocyte maturation in a previous cycle (\< 50% MII)
- Women with Severe Endometriosis (≥ III AFS classification) (in the ovaries and if not surgically treated)
- Patients scheduled for PGD (preimplantation genetic diagnosis of monogenic/single gene defects) and PGT-A (preimplantation genetic testing on aneuploidy)
- Couples where the partner has an extremely low sperm count e.g.: severe oligo-astheno-teratozoospermia (OAT) with sperm count below 100.000/ml or TESE.