Longitudinal Surface Measurements of Human Blastocysts Show That the Dynamics of Blastocoel Expansion Are Associated With Fertilization Method and Ongoing Pregnancy
Abstract Background: Despite all research efforts during this era of novel time-lapse morphokinetic parameters, a morphological grading system is still routinely being used for embryo selection at the blastocyst stage. The blastocyst expansion grade, as evaluated during morphological assessment, is associated with clinical pregnancy. However, this assessment is performed without taking the dynamics of blastocoel expansion into account. Here, we studied the dynamics of blastocoel expansion by comparing longitudinal blastocoel surface measurements using time-lapse embryo culture. Our aim was to first assess if this is impacted by fertilization method and second, to study if an association exists between these measurement and ongoing pregnancy. Methods: This was a retrospective cohort study including 225 couples undergoing 225 cycles of in vitro fertilization (IVF) treatment with time-lapse embryo culture. The fertilization method was either conventional IVF, intracytoplasmic sperm injection (ICSI) with ejaculated sperm or ICSI with sperm derived from testicular sperm extraction (TESE-ICSI). This resulted in 289 IVF embryos, 218 ICSI embryos and 259 TESE-ICSI embryos that reached at least the full blastocyst stage. Blastocoel surface measurements were performed on time-lapse images every hour, starting from full blastocyst formation (tB). Linear mixed model analysis was performed to study the association between blastocoel expansion, the calculated expansion rate (µm2/hour) and both fertilization method and ongoing pregnancy. Results: The blastocoel of both TESE-ICSI embryos and ejaculated sperm ICSI embryos was significantly smaller than the blastocoel of IVF embryos (beta -647.7 µm2; 95% confidence interval (CI): -1133.6 to -161.9, beta -1017.0 µm2; 95% CI: -1525.1 to -508.8, respectively). In addition, the blastocoel of embryos resulting in an ongoing pregnancy was significantly larger (beta 795.4 µm2; 95% CI: 15.4 to 1575.4) and expanded significantly faster (beta 100.9 µm2/hour; 95% CI: 5.7 to 196.2) than the blastocoel of embryos that did not result in an ongoing pregnancy. Conclusion: Longitudinal blastocyst surface measurements and expansion rates are promising non-invasive quantitative markers that can aid the embryo selection for transfer and cryopreservation.