Infertility Clinical Trial
Official title:
Prospective, Randomized Trial Comparing ICSI to Insemination for Non-Male Factor Patients Undergoing PGT-A
Intracytoplasmic sperm injection (ICSI) is a procedure performed during in vitro fertilization (IVF) in which a single sperm is injected directly into an oocyte. This procedure was developed for male factor infertility due to its requirement for a very small number of viable sperm. However, its use has expanded and is now recommended for IVF cycles in which preimplantation genetic testing for aneuploidies (PGT-A) is performed on blastocysts. We hypothesize that the ICSI procedure may interfere with the normal meiosis II process that occurs during fertilization, and lead to a higher rate of aneuploid blastocysts. In our study we will randomly assign non-male factor infertility patients to either conventional insemination or ICSI and compare the rate of karyotypically normal embryos in each group.
Intracytoplasmic sperm injection (ICSI) is a procedure performed during in vitro fertilization (IVF) in which a single sperm is injected directly into an oocyte. This procedure was developed for male factor infertility due to its requirement for a very small number of viable sperm. Fertilization rates have been noted to be approximately 60-70%, comparable to traditional insemination. Its use has expanded and is now recommended for IVF cycles in which preimplantation genetic testing for aneuploidies (PGT-A) is performed on blastocysts. With PGT-A, euploid embryos can be selected to transfer, ultimately increasing implantation rates, raising ongoing pregnancy rates, and reducing the incidence of miscarriage. The recommendation to utilize ICSI for all PGT-A cycles was initially based on ensuring monospermic fertilization and minimizing contamination from additional sperm attached to the oocyte's zona pellucida during the use of polymerase chain reaction (PCR) for genetic testing. However, this is of less concern with newer next generation sequencing molecular techniques that are now used and enable much higher resolution analysis. It has been suggested that ICSI may slightly increase the risk of imprinting disorders and birth defects, and significantly increases the cost of IVF. Meiosis II occurs during oocyte fertilization, and as such, any disruption of the meiosis apparatus could potentially lead to errors in chromosomal division. We hypothesize that the ICSI procedure may interfere with the normal meiosis process and lead to a higher rate of aneuploid blastocysts. Our study will randomly assign patients with non-male factor infertility undergoing IVF with PGT-A at Texas Fertility Center to either conventional insemination or ICSI. Women aged 18-39 years old with at least 10 oocytes following retrieval will be included. Initial semen analysis must have greater than or equal to 16 million sperm/mL, 42% motile sperm, 16.4 million total motile sperm, 30% progressive motility, and 4% normal morphology (as defined by WHO 6th edition). Patients will be excluded for any of the following: any fertilization failure or more than one implantation failure from previous IVF cycles; male factor infertility as defined by sperm concentration less than 16 million sperm/mL, motility less than 42%, total motile count less than 16.4 million, progressive motility less than 30%, and normal morphology less than 4%; female partner over age 39 years old; 9 or fewer oocytes following retrieval; couples requiring single gene analysis by preimplantation genetic testing for monogenic disorders (PGT-M); ICSI for any reason other than PGT-A. The female partner will undergo controlled ovarian stimulation with a protocol chosen by each patient's physician based on patient age, history, and ovarian reserve. Recombinant follicle stimulating hormone (FSH) (Gonal F or Follistim) and human menopausal gonadotropin (Menopur) will be used for stimulation. Gonadotropin-releasing hormone (GnRH) agonist (Lupron) or antagonist (Cetrotide or Ganirelix) with or without oral contraceptive pills (OCPs) or with estradiol priming will be used for suppression of ovulation. The patient will be monitored every 1-3 days utilizing ultrasound to measure follicular growth as well as blood estradiol levels, with medication and dosing adjusted accordingly. Oocyte maturation will be triggered with gonadotropin-releasing hormone (GnRH) agonist (Lupron) and/or human chorionic gonadotropin (Novarel or Pregnyl). Oocyte retrieval will occur 36 hours after trigger according to standard protocols at our center. Oocytes will be washed with multipurpose handling medium (MHM) plus 0.5% human serum albumin (HSA). Excess cumulus cells and blood will be trimmed. Oocytes will be transferred to a dish containing Irvine Scientific Continuous Cell Culture Complete Medium with two oocytes per dish. The dish will then be transferred to the incubator. Oocytes designated for ICSI will be immediately exposed to hyaluronidase to strip the cumulus and coronal cells. Embryologists will assess the maturation status under inverted microscopy. ICSI will be performed on all mature metaphase II oocytes 4 hours after retrieval. Injected oocytes will then be placed in a fresh culture dish and returned to the incubator. For oocytes designated for conventional insemination, insemination will occur 4-6 hours post-retrieval. Sperm will be collected as a fresh specimen and washed with Irvine Scientific Continuous Single Culture-NX. Sperm concentration and motility will be assessed before and after washing according to WHO 6th edition criteria. Sperm will be prepared to achieve a concentration of 200,000 sperm per 100 microliter drop. 6 drops of prepared sperm will be added to each dish. The following morning after ICSI or conventional insemination (Day 1), oocytes will be examined for fertilization. Zygotes with two pronuclei (2PN) will be kept in group culture to be assessed again on Days 5, 6, and 7. Embryos that reach the blastocyst stage will be morphologically graded by our embryologists. The Inner Cell Mass (ICM) and trophectoderm will each be given a grade of Good (G), Fair (F), or Poor (P). Blastocysts with grades G or F will undergo trophectoderm biopsy and subsequent vitrification. Trophectoderm biopsy will be performed using a standard protocol: Hatching trophoblast cells opposite the inner cell mass will be gently aspirated into the biopsy pipet. The SaturnActive laser will be used to separate 3-5 cells. Biopsied cells will be prepared and loaded in PCR tubes according to the PGT-A center protocols and stored at -20 degrees Celsius until transportation to the testing center. Next Generation Sequencing will be used to analyze samples at a PGT testing center (Ovation Genetics, Cooper Genomics, Natera, RGI, or Genomic Prediction). Copy number variations will be used to diagnose ploidy status. Euploidy will be defined as a normal number of chromosomes. Aneuploidy will be defined as an abnormal number of chromosomes. Mosaicism will be defined as 30-70% mosaicism, whereas less than 30% mosaicism will be considered euploidy, and greater than 70% mosaicism will be considered aneuploidy. PGT-A outcomes will be analyzed for percentage of euploid, aneuploid, mosaic, and no result embryos. ;
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