The objective of this study was to evaluate the ability of a specific gravity chamber (SGC) to identify embryos most likely to result in successful implantation following embryo transfer. In… Click to show full abstract
The objective of this study was to evaluate the ability of a specific gravity chamber (SGC) to identify embryos most likely to result in successful implantation following embryo transfer. In this study, 19 in vitro produced (IVP) and 15 in vivo derived (IVD) Grade bovine embryos were allowed to descend through media in an SGC. Descent time through a 1-cm timing region was recorded, and embryos were retrieved from the chamber and transferred into recipient females or cryopreserved and transferred at a later date. To determine if chamber evaluation had an effect on pregnancy status, 27 IVP and 12 IVD embryos that were not evaluated with the SGC were also transferred alongside project embryos. Pregnancy was determined via transrectal ultrasound palpation and recorded. There was no significant difference in conception rates between embryos evaluated with the SGC and those not, indicating that chamber analysis had no negative impact on viability of both IVP (P = 0.54) and IVD (P = 0.93) embryos. Twenty-two of the 34 total project embryos resulted in successful implantation and pregnancy, with 13 pregnancies (68.4%) by IVP and 9 (60%) by IVD. There was no difference in average descent time of pregnant and non-pregnant embryos for IVP (P = 0.54) or IVD embryos (P = 0.24). When divided into groups according to descent time, 32% of all observations for IVP embryos occurred between 30 to 50 seconds with a 66.7% conception rate, and 42% occurred between 70 to 90 seconds with a 75% conception rate (P = 0.85). For IVD, 60% of all observations occurred between 90 to10 seconds, with a conception rate of 66.7% (P = 0.35). Though not significant, the numeric trends highlighted in these data lend support to previous research utilizing specific gravity. Further research is needed to thoroughly evaluate the potential of this technology as a method of noninvasive assessment of embryo viability.
               
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