Abstract
ObjectiveOur primary aim was to compare the morphology and morphokinetics on inter- and intra-observer agreement for blastocyst with known implantation outcome. Our secondary aim was to validate the morphokinetic parameters' ability to predict pregnancy using a previous published selection algorithm, and to compare this to standard morphology assessments.MethodsTwo embryologists made independent blinded annotations on two occasions using time-lapse images and morphology evaluations using the Gardner Schoolcraft criteria of 99 blastocysts with known implantation outcome. Inter- and intra-observer agreement was calculated and compared using the two methods. The embryos were grouped based on their morphological score, and on their morphokinetic class using a previous published selection algorithm. The implantation rates for each group was calculated and compared.ResultsThere was moderate agreement for morphology, with agreement on the same embryo score in 55 of 99 cases. The highest agreement rate was found for expansion grade, followed by trophectoderm and inner cell mass. Correlation with pregnancy was inconclusive. For morphokinetics, almost perfect agreement was found for early and late embryo development events, and strong agreement for day-2 and day-3 events. When applying the selection algorithm, the embryo distributions were uneven, and correlation to pregnancy was inconclusive.ConclusionsTime-lapse annotation is consistent and accurate, but our external validation of a previously published selection algorithm was unsuccessful.
Highlights
Scoring and selection of embryos is done through microscopic evaluations of their morphological features
Since 2012, culture in EmbryoScope is the standard practice for all patients attending our Fertility Clinic
Lower intra-class correlation coefficient (ICC) was found for tPNa and t9+
Summary
Scoring and selection of embryos is done through microscopic evaluations of their morphological features. One of the reasons may be a high degree of inter-observer and intra-observer variability (Arce et al, 2006; Baxter Bendus et al, 2006; Paternot et al, 2011) This can be explained by the non-rigid definitions of blastocyst grades and the lack of a precise timing for the observations (Alpha/ESHRE, 2011; Montag et al, 2011). There is available information about embryo changes from a quick morphological observation per embryo per day, to the gathering of approximately 6000 images per embryo during culture. This enables embryologists to play and replay the development, and to evaluate morphological features without exposing the embryos to sub-optimal culture conditions. The increase in information about each embryo should, in theory, increase the likelihood of choosing the embryos with the highest ability to lead to pregnancy
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