Transcriptomics of cumulus cells – a window into oocyte maturation in humans

Abstract Background Cumulus cells (CC) encapsulate growing oocytes and support their growth and development. Transcriptomic signatures of CC have the potential to serve as valuable non-invasive biomarkers for oocyte competency and potential. The present sibling cumulus-oocyte-complex (COC) cohort study aimed at defining functional variations between oocytes of different maturity exposed to the same stimulation conditions, by assessing the transcriptomic signatures of their corresponding CC. CC were collected from 18 patients with both germinal vesicle and metaphase II oocytes from the same cycle to keep the biological variability between samples to a minimum. RNA sequencing, differential expression, pathway analysis, and leading-edge were performed to highlight functional differences between CC encapsulating oocytes of different maturity. Results Transcriptomic signatures representing CC encapsulating oocytes of different maturity clustered separately on principal component analysis with 1818 genes differentially expressed. CCs encapsulating mature oocytes were more transcriptionally synchronized when compared with CCs encapsulating immature oocytes. Moreover, the transcriptional activity was lower, albeit not absent, in CC encapsulating mature oocytes, with 2407 fewer transcripts detected than in CC encapsulating immature (germinal vesicle - GV) oocytes. Hallmark pathways and ovarian processes that were affected by oocyte maturity included cell cycle regulation, steroid metabolism, apoptosis, extracellular matrix remodeling, and inflammation. Conclusions Herein we review our findings and discuss how they align with previous literature addressing transcriptomic signatures of oocyte maturation. Our findings support the available literature and enhance it with several genes and pathways, which have not been previously implicated in promoting human oocyte maturation. This study lays the ground for future functional studies that can enhance our understanding of human oocyte maturation

Does body mass index impact assisted reproductive technology treatment outcomes in gestational carriers

Abstract Background The purpose of this study was to assess whether increased body mass index (BMI) negatively affects assisted reproductive technology (ART) outcomes among gestational carriers. Methods A retrospective matched case-control cohort, including all gestational carrier (GC) cycles performed at CReATe Fertility Centre (Toronto, ON, Canada) between 2003 and 2016. Setting A Canadian fertility clinic, with a large surrogacy program. Patients All gestational carriers that had undergone a cycle completed to a transfer at our clinic, and had BMI and outcome data available, were matched by BMI to infertile patients treated at our clinic during the same years provided they had undergone a cycle completed to a transfer, and had outcomes data available. Interventions None. Main outcome measures Clinical pregnancies rates, miscarriage rates and live birth rates. Results BMI was not a reliable prediction factor of any of the measured outcomes. Importantly, the gestational carrier population had better outcomes and a significantly lower overall incidence of maternal, fetal and neonatal complications when compared with infertile patients, treated at our clinic during the same years. Conclusion BMI is not a reliable predictor of outcomes among gestational carriers

Open Power Morcellation Versus Contained Power Morcellation Within an Insufflated Isolation Bag: Comparison of Perioperative Outcomes

© 2015 AAGL. Study Objective: To compare perioperative outcomes, particularly operative time, between uncontained and in-bag power morcellation of uterine tissue at the time of laparoscopic surgery. Design: Canadian Task Force classification II-3. Setting: Academic tertiary care hospitals. Patients: Women undergoing laparoscopic hysterectomy or myomectomy who required morcellation of uterine tissue for specimen extraction. Interventions: Outcomes among patients who had in-bag power morcellation were compared with outcomes among patients who had traditional power morcellation. The technique for in-bag morcellation entails placing the specimen into a large containment bag within the abdomen, insufflating the bag within the peritoneal cavity, and then using a power morcellator to remove the specimen from inside the bag. Measurements and Main Results: The cohort consisted of 85 consecutive patients who underwent surgery with morcellation of uterine tissue. Prospective data collected from 36 patients who underwent in-bag morcellation were compared with retrospective data collected from the immediately preceding 49 patients who had uncontained power morcellation. Baseline demographics were comparable between the 2 groups although women who underwent in-bag morcellation were on average older than the open morcellation group (mean age in years [standard deviation], 49.19 [1.12] vs 44.06 [8.93]; p = .01). The mean operating room time was longer in the in-bag morcellation group (mean time in minutes [standard deviation], 119.0 [55.91] vs 93.13 [44.90]; p = .02). The estimated blood loss, specimen weight, hospital length of stay, and perioperative complication rate did not vary between the 2 groups. Operative times did not vary significantly by surgeon. There were no cases of malignancy or isolation bag disruption. Conclusions: In-bag power morcellation, a tissue extraction technique developed to reduce the risk of tissue dissemination, results in perioperative outcomes comparable with the traditional laparoscopic approach. In this cohort, the mean operative time was prolonged by 26 minutes with in-bag morcellation but may potentially be reduced with further refinement of the technique