Korean J Obstet Gynecol.
1997 Jan;40(1):37-48.
The Effect of Pentoxifylline on In Vitro Fertilization and Development of Mouse Normal Sperm
Abstract
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OBJECT: This study was carried out to investigate the effect of pentoxifylline on in vitro fertillization and developmen of preimplantation stage of mouse embryos.
MATERIAL AND METHODS:F1 hybrid mice was superovulated with PMSG/hCG and mouse oocytes were recruited. After the normal sperms were incubated with PTX before in vitro fertilization, it was observed whether the fertilization and embryo development was affected or not by the sperm preparation(washing, dilution and no washing or no dilution). And after 1-cell and 2-cell stage of mouse embryos were incubated with PTX, the development to hatching blastocyst was also observed.
RESULTS
When in vitro fertilization was revealed by using the washed normal sperms after 0, 3.6 and 7.2 mM PTX incubation, the fertilization rates were 92.5%, 48.8%, 36.8%, respectively. So 3.6 and 7.2 mM groups presented significantly low fertilizatin rate, but the development rates were 93.9%, 85.0%, 95.2%, respectively. Therefore, there were no significant difference between each group. When in vitro fertilization was revealed by using the diluted normal sperms after 0, 3.6, and 7.2 mM PTX incubation, the fertilization rates were 58.6%, 5.4%, 9.4%, respectively. So 3.6 and 7.2 mM groups presented significantly low fertilization rate. The developmental rates were 88.2%, 100%, 100%. And there were no significant difference between each group. When in vitro fertilization was revealed by using the not washed and not diluted normal sperms after 0, 3.6 and 7.2 mM PTX incubation, the fertilizatin rates were 61.2%, 5.7%, 3.8%, respectively. 3.6 and 7.2 mM group presented significantly low fertilization rate. The development rates were 73.3%, 0%, 0%, respectively. So 3.6, 7.2 mM group presented significantly low developmental rate. After 1-cell stage of mouse embryos were incubated in 0, 5, 10, 50 nM of PTX, the development rates were not significantly different among them. After 2-cell stage of mouse embryos were incubated in 0, 5, 10, 50 nM of PTX, the development rates were not significantly different among them.
CONCLUSION
In conclusion, when PTX is used in in vitro fertilization program with normal sperms, it may affect the fertilization and embryo development in high concentration. And if PTX concentration is very low, the developmental rate would not be affected. So PTX must not be used to normal sperms and where use of PTX is indicated, it is recommended that remainder PTX must be removed as completely as possible.