Successful establishment of pregnancy requires a viable embryo and a receptive uterus. The contribution that reduced uterine receptivity makes to human infertility is unknown. IVF patients with implantation failure will be investigated using different approaches to identify gene pathways that are altered in reduced uterine receptivity. This study could lead to a clinical test for uterine receptivity and help to improve fertility treatment options for women with repeated implantation failure.
Uptake of fertility preservation procedures (eg. egg and embryo freezing) prior to cancer treatment is increasing and women will return to use these to try to conceive. Radiation may damage the uterus and there is insufficient evidence to guide the management of those exposed to intermediate doses. The aim is to improve understanding of radiation effects on the uterus which will assist clinicians with deciding whether it can support a pregnancy, or if surrogacy should be advised.
The aim of this project is to determine whether melatonin supplementation has an effect on cumulative pregnancy and delivery rates, allowing for the use of frozen embryos obtained during a melatonin treatment cycle. This will be achieved by a series of experiments designed to investigate the effect of melatonin on follicular fluid and culture media as well as assessing clinical pregnancy rates and delivery rates.