View clinical trials related to Embryo Culture Media.
Filter by:More than 8 million babies have been born through in vitro fertilization (IVF). Non-invasive observation of embryos in vitro to better understand their development is becoming increasingly important. Morphology has been used as standard from the beginning, but has the disadvantage of subjectivity. Now the emphasis in basic and clinical research is on developing rapid, quantitative, non-invasive tests. Hence comes the idea of metabolic profiling of spent embryo culture medium (SECM) as a biomarker. This could be useful for understanding and improving the nutritional environment of oocytes and embryos. The goal of our study is to determine metabolic profiles of the SECM in combination with morphological assessments to better understand the nutritional requirements of the embryo. The goal would be to optimize media specifically, depending on patient and embryo characteristics ("personalized medicine") ("the embryo in vitro as patient").
Embryonic aneuploidy is the underlying etiology for the majority of failed implantation and miscarriage. Preimplantation genetic screening (PGS) with transfer of a euploid embryo has been advocated as a strategy for increasing live birth rates with a single embryo transfer. Culturing embryos to the blastocyst stage for trophectoderm biopsy is a requirement for PGS. Several commercially-available single-step embryonic culture media with varying composition have been established for use in the IVF laboratory. Early reports have suggested differences in clinical outcomes, such as aneuploidy and miscarriage rates, with distinct culture media currently in standard use. However, there have been no clinical trials demonstrating the superiority of any one commercially-available culture media formulation. As a result, clinics use media with varying composition based upon familiarity and cost.