6533b7d9fe1ef96bd126d2e1

RESEARCH PRODUCT

Selection of the best three oocytes for intracytoplasmic sperm injection (ICSI) using apoptotic analysis of cumulus cells

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Introduction: We studied the apoptosis rate of the cumulus cells of individual cumulus-oocyte complex (COC), to verify a relationship with clinical outcomes, in terms of pregnancy and implantation rates. Usually oocytes are selected using morphological criteria. We tried to verify if cumulus cell apoptotic rate could be used as a molecular criteria in selecting oocytes with higher implantation potentiality. Material and Methods: The study design consisted in two different trials: in the first we investigated apoptosis rate in cumulus cells of the three selected oocytes, according to Italian law, to be fertilized by intracytoplasmic sperm injection (ICSI). In a second trial, average apoptosis rate of the cumulus cells coming from the three selected oocytes to be fertilized by ICSI and the pooled remaining oocytes were compared, when more than 5 COCs were aspirated. In a first trial we included 22 consecutive couples undergoing ICSI cycles, 20 in a second one, for a total of 42 patients. We selected the three oocytes for (ICSI) on the basis of the morphological appearance of the cumulus, according to Veek’s criteria. The cumulus cells of each COC was submitted to apoptotic assays. The patients were classified, on the basis of pregnancy success, in A Group (pregnant patients) and B Group (patients with negative bhCG). Results: Both trials showed that apoptosis in the cumulus cells was remarkably lower in the A Group if compared with B Group. The apoptosis rate in the selected COCs was similar to pooled COCs, confirming that apoptosis rate in cumulus cells is characteristic for each patient. Out of 22 patients involved in the first trial, 8 were pregnant (36.3% A Group) and 14 were not pregnant (B Group). In the second trial 4 of a total of 20 patients were pregnant (20%). In the first trial a total of 58 metaphase II oocytes and 56 in the second trial were studied. In the second trial 38 oocytes where pooled to compare apoptosis rate with the three selected oocytes pools. In the first trial the incidence of DNA fragmentation, evaluated by TUNEL assay, of the cumulus cells from individual treated oocytes, was lower in A Group than in B Group (6.7% ranging between 2.2–13.3 vs 13.19% ranging between 6.2–34.9 respectively, p , 0.05). To confirm if DNA fragmentation was related to apoptosis process, we performed caspase-3 immunoassay in the same cells. Data showed a lower capase-3 activity in cumulus cells of pregnant than in those of non pregnant patients (5.2% ranging between 1.2–8.6 vs 11.8% ranging between 5.6– 14.8, p , 0.05). It is noteworthy to underline that pregnant patients usually exhibited, at least, one COC with a DNA fragmentation rate (TUNEL) less than 10% and caspase-3 activity rate less than 7%. Four (A Group) of 20 patients involved in the second trial were pregnant but 2 aborted at 8–9 weeks. The low number of pregnant patients didn’t allow us to have a powerful statistical analysis of apoptotic rate in cumulus cells, but it seems evident that an higher apoptotic rate in cumulus cells is associated to the pregnancy failure (B Group) and in aborted patients of A Group, ranging from 10 to 60.3%. Conclusion: The data seem to demonstrate that apoptosis may be a marker for the selection of the three best oocytes to be submitted to ICSI treatment. All pregnant patients showed a lower apoptosis rate in cumulus cells if compared with patients with pregnancy failure.