View clinical trials related to Fertilization.
Filter by:Cases which undergone ICSI before with failure of fertilization will do another ICSI cycle with removal of the polar body just before the ICSI procedure and sperm injection at the site of polar body removal. This study group will be evaluated with another group with the classic ICSI procedure
Patients with infertility often undergo in vitro fertilization (IVF) to achieve a pregnancy, which involves ovarian stimulation, monitoring of follicular growth, oocyte retrieval, sperm insemination, embryo culture and embryo transfer. The oocytes are removed during surgery by aspirating the follicles using a single lumen needle with an ultrasound to guide the procedure. There is some data that flushing the follicles with embryo culture media before aspiration using a double lumen needle increases the number of oocytes retrieved, particularly among poor responding patients for whom each additional oocyte recovered may substantially alter the outcome of that IVF cycle. The objective of the research is to evaluate the effect of follicular flushing in poor responders on IVF cycle outcomes.
The purpose of this study is to determine the rate of cryosurvival of mature oocytes following vitrification, and to then compare the reproductive potential of vitrified oocytes relative to those which have not been cryopreserved.
The primary objective of this trial is to investigate the dose -response relationship of a single injection of Org 38286 to initiate multifollicular growth for the first seven days in a controlled ovarian hyperstimulation (COH) protocol for IVF or ICSI.
At fertilization, the binding of sperm to the zona pellucida induces the acrosome reaction releasing lytic enzymes that facilitate the passage of the sperm through the zona. The sperm then fuses with the egg's plasm membrane and enters the egg's cytoplasm. The zona pellucida, an extracellular matrix composed of three glycoproteins (ZP1, ZP2, ZP3), mediates the species-specific binding of sperm to egg. Although homologous proteins are present in mouse and humans, human sperm will not bind to the mouse zona pellucida and when the zona pellucida is experimentally removed, human sperm will not bind or fuse to the mouse egg's plasm membrane. We have created transgenic mouse lines that express one or more human zona proteins. We wish to determine if human sperm will bind to these chimeric zonae and if this binding will induce the human sperm acrosome reaction. Sperm and devitalized eggs will be collected by collaborating institution(s) under protocols and consent forms approved by that institution's IRB. Only procedures already being performed on subjects for diagnostic or treatment purposes will be used.