View clinical trials related to Embryo Hypoxia.
Filter by:Nowadays, most assisted reproduction laboratories attempt to maintain as much as possible ex vivo culture conditions comparable to those in vivo. Various culturing condition such as temperature and pH parameters have been adjusted according to in vivo values in order to improve in-vitro fertilization (IVF) outcomes. Embryos of most mammals, including that of humans, are not exposed to oxygen concentration higher than 8%. Thus, embryos and gametes should be kept in a low oxygen environment during manipulation in assisted reproduction treatment. Culturing embryos in low oxygen concentrations is now a general practice in IVF laboratories. However, there are still laboratory procedures when the oocytes/embryos are exposed to atmospheric oxygen. In most laboratories, oocytes retrieval is performed under atmospheric oxygen concentration. Oocyte is very sensitive to environmental changes, for instance, transient cooling to room temperature can cause irreversible disruption of the meiotic spindle in human oocytes and oocyte in vitro maturation can lead to the decline of energy metabolism in human oocytes. Whether oocyte exposed to atmospheric oxygen during oocyte retrieval has detrimental effect on embryo development and IVF outcomes is unknown. Previous studies showed that low oxygen tension during embryo culture improved implantation rate and clinical outcomes, but embryo quality was not affected. In other studies, embryo quality was improved but overall pregnancy was not affected. The reason for the discrepancies could be because the oxygen tension during oocyte/embryo manipulation was not under well control. For instance, oocyte retrieval, fertilization check and embryo grading were performed under atmospheric oxygen. It is difficult to predict how these factors negatively impact the IVF outcomes. In this project, the investigators hypothesize that lower oxygen tension during oocyte/embryo manipulation improves IVF outcomes.
To investigate the effect of low oxygen tension during in vitro culture in terms of embryo quality and outcomes of pregnancy in vitro fertilization/ Intracytoplasmic sperm injection