High fertilization and implantation rates after intracytoplasmic sperm injection

Previously reported better fertilization rate after intracytoplasmic single sperm injection (ICSI) than after subzonal insemination of several spermatozoa was confirmed in a controlled comparison of the two procedures in 11 patients. Intracytoplasmic sperm injection was carried out in 150 consecutive treatment cycles of 150 infertile couples, who had failed to have fertilized oocytes after standard in-vitro fertilization (IVF) procedures or who were not accepted for IVF because not enough motile spermatozoa were present in the ejaculate. A single spermatozoon was injected into the ooplasm of 1409 metaphase II oocytes. Only 117 oocytes (8.3%) were damaged by the procedure and 830 oocytes (64.2% of the successfully injected oocytes) had two distinct pronuclei the morning after the injection procedure. The fertilization rate was not influenced by semen characteristics. After 24 h of further in-vitro culture, 71.2% of these oocytes developed into embryos, which were transferred or cryopreserved. Only 15 patients did not have embryos replaced. Three-quarters of the transfers were triple-embryo transfers. High pregnancy rates were noticed since 67 pregnancies were achieved, of which 53 were clinical, i.e. a total and clinical pregnancy rate of 44.7% and 35.3% per started cycle and 49.6% and 39.2% per embryo transfer. A total of 237 supernumerary embryos were cryopreserved in 71 treatment cycles.

[1]  P. Devroey,et al.  Pregnancies after intracytoplasmic injection of single spermatozoon into an oocyte , 1992, The Lancet.

[2]  P. Devroey,et al.  In-vitro fertilization with husband and donor sperm in patients with previous fertilization failures using husband sperm. , 1988, Human reproduction.

[3]  S. Ratnam,et al.  Microinjection of human oocytes: a technique for severe oligoasthenoteratozoospermia * , 1991 .

[4]  M. Derde,et al.  Higher success rate by intracytoplasmic sperm injection than by subzonal insemination. Report of a second series of 300 consecutive treatment cycles. , 1993, Human reproduction.

[5]  P. Devroey,et al.  Time of insemination and its effect on in-vitro fertilization, cleavage and pregnancy rates in GnRH agonist/HMG-stimulated cycles. , 1989, Human reproduction.

[6]  P. Devroey,et al.  A prospective randomized comparison of intramuscular or intravaginal natural progesterone as a luteal phase and early pregnancy supplement. , 1992, Human reproduction.

[7]  Z. Rosenwaks,et al.  A preclinical evaluation of pronuclear formation by microinjection of human spermatozoa into human oocytes. , 1988, Fertility and sterility.

[8]  S. Fishel,et al.  Evaluation of 225 patients undergoing subzonal insemination for the procurement of fertilization in vitro. , 1992 .

[9]  M. Derde,et al.  Sperm characteristics and outcome of human assisted fertilization by subzonal insemination and intracytoplasmic sperm injection , 1993 .

[10]  C. Lombard,et al.  Sperm morphologic features as a prognostic factor in in vitro fertilization. , 1986, Fertility and sterility.

[11]  C. Staessen,et al.  Cryopreservation of human embryos obtained after gamete intra-Fallopian transfer and/or in-vitro fertilization. , 1987, Human reproduction.

[12]  P. Devroey,et al.  A prospective randomized study on oestradiol valerate supplementation in addition to intravaginal micronized progesterone in buserelin and HMG induced superovulation. , 1993, Human reproduction.