PURPOSE: This study aimed to investigate whether the extended culture of day 3 (D3) embryos with low blastomere number to blastocyst following frozen-thawed embryo transfer improved the clinical outcomes. METHODS: This was a retrospective study of clinical data of women undergoing in vitro fertilization/intracytoplasmic sperm injection (IVF/ICSI) cycles in the Tangdu Hospital. The patients were divided into groups with 4-5, 6, 7-9 and > 9 cells based on the blastomere number of D3 embryos. The clinical outcomes were compared. RESULTS: In fresh transfer cycles, the implantation and clinical pregnancy rates significantly decreased, while the abortion rate significantly increased in the groups with 4-5 and 6 cells compared with those with 7-9 and > 9 cells. In frozen-thawed transfer cycles, the clinical pregnancy and implantation rates for a single blastocyst transfer cycle showed no significant differences in the groups with 4-5 and 6 cells compared with those with 7-9 and > 9 cells. However, the abortion rate was significantly higher in the group with 4-5 cells than in that with 7-9 and > 9 cells. In the double blastocyst transfer cycle, the clinical pregnancy rate showed no significant differences among the groups with 4-5, 6, and 7-9 cells. CONCLUSION: The implantation and clinical pregnancy rates of D3 embryos with 6 cells significantly decreased; these embryos were not considered as high-quality embryos. Extended culture of D3 embryos with ≤ 6 blastomeres to blastocysts, particularly 6-cell embryos, resulted in a similar clinical pregnancy rate as that of blastocysts derived from D3 embryos with ≥ 7 blastomeres.
PURPOSE: This study aimed to investigate whether the extended culture of day 3 (D3) embryos with low blastomere number to blastocyst following frozen-thawed embryo transfer improved the clinical outcomes. METHODS: This was a retrospective study of clinical data of women undergoing in vitro fertilization/intracytoplasmic sperm injection (IVF/ICSI) cycles in the Tangdu Hospital. The patients were divided into groups with 4-5, 6, 7-9 and > 9 cells based on the blastomere number of D3 embryos. The clinical outcomes were compared. RESULTS: In fresh transfer cycles, the implantation and clinical pregnancy rates significantly decreased, while the abortion rate significantly increased in the groups with 4-5 and 6 cells compared with those with 7-9 and > 9 cells. In frozen-thawed transfer cycles, the clinical pregnancy and implantation rates for a single blastocyst transfer cycle showed no significant differences in the groups with 4-5 and 6 cells compared with those with 7-9 and > 9 cells. However, the abortion rate was significantly higher in the group with 4-5 cells than in that with 7-9 and > 9 cells. In the double blastocyst transfer cycle, the clinical pregnancy rate showed no significant differences among the groups with 4-5, 6, and 7-9 cells. CONCLUSION: The implantation and clinical pregnancy rates of D3 embryos with 6 cells significantly decreased; these embryos were not considered as high-quality embryos. Extended culture of D3 embryos with ≤ 6 blastomeres to blastocysts, particularly 6-cell embryos, resulted in a similar clinical pregnancy rate as that of blastocysts derived from D3 embryos with ≥ 7 blastomeres.