Abstract
The hatching of a blastocyst where the blastocyst portions on the inside and the outside of the zona pellucida feature a figure-of-eight shape is termed “8”-shaped hatching; this type of hatching has been reported to affect the proper presentation of the inner cell mass (ICM) in both human and mouse embryos. Here, our aim was to investigate the factors that affect ICM presentation during “8”-shaped hatching. We performed IVF by using B6D2F1 female mice and ICR male mice, and used the 104 captured blastocysts. Embryos were maintained in KSOM at 37°C in a 5% CO2, 5% O2, and 90% N2 environment, and their growth behavior was monitored individually and continuously using time-lapse cinematography. At 120 h after insemination, embryos were immunostained and examined under a confocal microscope. We used the hatching form to identify “8”-shaped hatching, and we classified the “8”-shaped-hatching blastocysts into two groups, one in which the hatching site was near the ICM center, and the other in which the hatching site was far from the ICM center. We measured each group for ICM size and the number of Oct3/4-positive cells. Of the 95 hatching or hatched embryos, 74 were “8”-shaped-hatching blastocysts, and in these embryos, the ICM was significantly wider when the hatching site was near the ICM than when the hatching site was far from the ICM (P = 0.0091). Moreover, in the “8”-shaped-hatching blastocysts in which the ICM was included in the blastocyst portion outside the zona pellucida―the portion defined as the “outside blastocyst”―after the collapse of this outside blastocyst, the ICM adhered to the trophectoderm of the outside blastocyst, opposite the hatching site. Our results indicate that in “8”-shaped-hatching blastocysts, the hatching site and the collapse of outside blastocyst affect ICM formation. Thus, the assessment of “8”-shaped hatching behaviors could yield indices for accurately evaluating embryo quality.
Highlights
The selection of healthy, high-quality embryos plays a crucial role in assisted reproductive technology (ART) success
When we classified the 74 “8”-shaped-hatching blastocysts into the Near group (Figs 1B(a-c) and 5A–5D) and the Far group (Figs 1B(d) and 5E–5H), we found that the Near group accounted for 79.7% (59/74), and that the inner cell mass (ICM) was included in the outside blastocyst of 71.2% (42/59) of the Near-group embryos (Fig 1B(b and c))
We examined the relationship between “8”-shaped hatching and ICM morphology
Summary
The selection of healthy, high-quality embryos plays a crucial role in assisted reproductive technology (ART) success. Relationship of hatching style and inner cell mass assessment, and in the case of human embryos, the Gardner criteria are widely used for this purpose [1]. A change in the morphology of the inner cell mass (ICM) exerts various effects on embryo prognosis. Attention has been focused on the hatching mode for its effect on ICM morphology. The ZP internal and external areas (i.e., the blastocyst portions inside and outside the ZP) adopt a hatching morphology similar to the figure “eight”; this “8”-shaped hatching has attracted attention as one factor for the qualitative evaluation of embryos, and for its effect in elongating the hatching period [4]. In the case of mouse embryos, “8”shaped hatching has been suggested to affect ICM presentation [5]. The relationship between the hatching site and hatching progress has been investigated [6]
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