View clinical trials related to Culture Media.
Filter by:Upon collection, human oocytes are fertilized and culture up to the blastocyst stage, followed by transfer and / or cryopreservation. Culture media systems have been developed that support each step of this process. Although these culture media systems try to mimic the natural environment, several components of the in-vivo situation are not present in today´s media. One such component is anti-oxidants that may protect embryos against damage by reactive oxygen species. This investigation aims to compare blastocyst development using 2 different types of culture media systems, one of which contains antioxidants. Patients having at least eight oocytes and meeting other inclusion criteria can be included in this investigation. It is a prospective randomized multicenter study randomly dividing oocytes into two groups and assessing parameters of embryo development from fertilization up to blastocyst formation until day six. Embryos with acceptable developmental characteristics can be transferred into the uterus or cryopreserved for later use. The investigation is designed as a superiority study comparing utilization rate of blastocysts per normally fertilized oocyte using both media systems. In patients receiving embryo transfer in the fresh treatment cycle, detection of clinical pregnancy by ultrasound after 12 weeks gestation is the final endpoint of the investigation.
Aim: To investigate the impact of antioxidants (acetyl-L-carnitine, N-acetyl-L-cysteine and a-lipoic acid) on embryo development and subsequently the clinical outcome. Including clinics using low oxygen and ambient air during embryo culture. Analysed with time-lapse system. Study media: G-TL with antioxidants. Control media: Same media without antioxidants. Type of study: Study comparing blastocyst development on the same cohort of oocytes using two different media, G-TL versus G-TL supplemented with antioxidants. Statistics based on an absolute increase in Good Quality Blastocysts on day 5 of 7%. Design: Multicentre prospective randomized sibling trial. Single blastocyst transfer. Superiority study Primary Endpoint: Good Quality Blastocysts on day 5 per allocated normally fertilized oocyte. Patients: Comparative embryo sibling study with 128 patients included.
In the present project we propose to deeply characterize nuclear and/or mitochondrial DNA in embryo culture medium, in order to investigate whether both cell-free nucleic acid types may provide additional, reliable, predictive parameters for embryo viability and implantation potential.