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Objective: To evaluate the efficiency of Percoll density gradient and swim-up methods for motile sperm isolation for in vitro fertilization and embryo transfer (IVF-ET) program. Methods: The fertilization rate, cleavage rate, embryo developing status and pregnancy outcome of 362 IVF cycles using sperm obtained by the two methods were studied. Results: There was no significant difference in fertilization rate and cleavage rate between the Percoll and swim-up groups. Although the two groups showed no significant difference in the embryo cell number, the percentage of embryos with<20% debris was significantly higher in the Percoll group (77.6%) than in swim-up group (65.9%). The pregnancy rate and the life birth rate were also significantly higher (P<0.01) in the Percoll group (43.7% and 70.3%, respectively) than in the swim-up group (36.6 % and 60.7 %, respectively). Conclusion: The efficiency of the Percoll density gradient method is superior to the swim-up method in motile sperm separation for the IVF-E
Objective: To evaluate the efficiency of Percoll density gradient and swim-up methods for motile sperm isolation for in vitro fertilization and embryo transfer (IVF-ET) program. Methods: The fertilization rate, cleavage rate, embryo developing status and pregnancy outcome of 362 IVF cycles using sperm obtained by the two methods were studied. Results: There was no significant difference in fertilization rate and cleavage rate between the Percoll and swim-up groups. Although the two groups showed no significant difference in the embryo cell number, the percentage The pregnancy rate and the life birth rate were also significantly higher (P <0.01) in the Percoll group (77.6%) than in swim-up group (65.9% (43.7% and 70.3% respectively) than in the swim-up group (36.6% and 60.7%, respectively). Conclusion: The efficiency of the Percoll density gradient method is superior to the swim-up method in motile sperm separa tion for the IVF-E