Background: Ovarian stimulation is an important process in IVF. Objectives:To assess the efficacy of low dose GnRH agonist depot in combination with recombinant FSH for ovarian stimulation in IVF and evaluate the clinical pregnancy rate of this protocol. Subject and method: A prospective study recruited 60 patients undergoing IVF. The patients was injected intramuscularly with a single dose of diphereline of 1.25 mg on cycle day 21-23. Then recombinant FSH was given subcutaneously on day 3. hCG was injected intramuscularly when at least one follicle reached 18 mm in diameter. Oocytes retrieval in 36 hours and embryo 2 transfer on day after oocytes retrieval. Results: Duration of stimulation was 10.8 \xb1 0.9, average number of oocytes was 3.3 \xb1 4.7, average number of embryos was 6.5 \xb1 4.1, clinical pregnancy rate was 41.7%. Ovarian hyperstimulation rate was 5%, frozen embryo rate was 40 %. Conclusions: The use of low dose GnRH agonist depot in combination with recombinant ISH is effective for ovarian stimulation in IVF.
In vitro Fertilization (IVF) ; Ovarian stimulation ; Oocytes retrieval ; Embryo transfer ; GnRH agonist

In genetic association studies with high-dimensional genomic data, multiple group testing procedures are often required in order to identify disease/trait-related genes or genetic regions, where multiple genetic sites or variants are located within the same gene or genetic region. However, statistical testing procedures based on an individual test suffer from multiple testing issues such as the control of family-wise error rate and dependent tests. Moreover, detecting only a few of genes associated with a phenotype outcome among tens of thousands of genes is of main interest in genetic association studies. In this reason regularization procedures, where a phenotype outcome regresses on all genomic markers and then regression coefficients are estimated based on a penalized likelihood, have been considered as a good alternative approach to analysis of high-dimensional genomic data. But, selection performance of regularization procedures has been rarely compared with that of statistical group testing procedures. In this article, we performed extensive simulation studies where commonly used group testing procedures such as principal component analysis, Hotelling's T² test, and permutation test are compared with group lasso (least absolute selection and shrinkage operator) in terms of true positive selection. Also, we applied all methods considered in simulation studies to identify genes associated with ovarian cancer from over 20,000 genetic sites generated from Illumina Infinium HumanMethylation27K Beadchip. We found a big discrepancy of selected genes between multiple group testing procedures and group lasso.
Genetic Association Studies ; Genetic Testing ; Ovarian Neoplasms ; Phenotype ; Principal Component Analysis ; Selection, Genetic ; Transcutaneous Electric Nerve Stimulation

The objective of the present study was to examine the feasibility of the production of autologous porcine somatic cell nuclear transfer (SCNT) blastocysts using oocytes and donor cells from slaughtered ovaries. Therefore, we attempted to optimize autologous SCNT by examining the effects of electrical fusion conditions and donor cell type on cell fusion and the development of SCNT embryos. Four types of donor cells were used: 1) denuded cumulus cells (DCCs) collected from in vitro-matured (IVM) oocytes; 2) cumulus cells collected from oocytes after 22 h of IVM and cultured for 18 h (CCCs); 3) follicular cells obtained from follicular contents and cultured for 40 h (CFCs); and 4) adult skin fibroblasts. The DCCs showed a significantly (p > 0.01) lower rate of fusion than the CCCs when two pulses of 170 V/mm DC were applied for 50 microsec (19 +/- 2% vs. 77 +/- 3%). The rate of DCC fusion with oocytes was increased by the application of two DC pulses of 190 V/mm for 30 microsec, although this was still lower than the rate of fusion in the CCCs (33 +/- 1% vs. 80 +/- 2%). The rates of cleavage (57 +/- 5%) and blastocyst formation (1 +/- 1%) in the DCC-derived embryos did not differ from those (55 +/- 6% and 3 +/- 1%, respectively) in the CCC-derived SCNT embryos. Autologous SCNT embryos derived from CFCs (5 +/- 2%) showed higher levels of blastocyst formation (p > 0.01) than CCC-derived autologous SCNT embryos (1 +/- 0%). In conclusion, the results of the present study show that culturing cumulus and follicular cells before SCNT enhances cell fusion with oocytes and that CFCs are superior to CCCs in the production of higher numbers of autologous SCNT blastocysts.
Animals ; *Animals, Genetically Modified ; Cloning, Organism ; Cumulus Cells/metabolism ; Electric Stimulation ; Embryo Culture Techniques/veterinary ; Embryonic Development ; Female ; Fibroblasts/metabolism ; Nuclear Transfer Techniques/*veterinary ; Oocytes/*metabolism ; Ovarian Follicle/metabolism ; Swine/embryology/*physiology

As a micro-wound and target-aimed technology without special limitation, Electric Pulses have been widely researched in tumor treatment and the effects have been demonstrated by a series of experiments, yet the mechanism has not been explained clearly. In this experiment, energy controllable steep pulse (ECSP) was used to treat nude mice bearing human ovarian tumor, and the result was compared with that of the control group. The expression of an important coagulant factor-tissue factor (TF) was analyzed, as TF was also a tumor indicator of invasion and metastasis, the result may indicate the relationship among ECSP, thrombosis and tumor invasion. In this study, to shed light on the mechanism of tumor treatment in electrical fields, nude mice bearing ovarian tumors were randomly divided into the treated group and the untreated group. We treated the former group and took out the tumor instantly. The thrombosis and necrosis of ovarian tumor were observed under microscope. The expression of TF was analyzed by SP immunohistochemistry and RT-PCR. Lower level of TF expression was noticed in the tumor tissue treated by ECSP, and more apparent thrombosis was also seen in this group. The results make it clear that ECSP can accelerate thrombosis and consume coagulant factors such as TF, and that low expression of TF in tumor tissue can cut out the signal paths of tumor invasion. So it is suggested that ECSP may restrain tumor invasion and metastasis by modulating thrombosis.
Animals ; Electric Stimulation Therapy ; methods ; Electromagnetic Fields ; Electroporation ; methods ; Female ; Humans ; Mice ; Mice, Nude ; Neoplasm Transplantation ; Ovarian Neoplasms ; metabolism ; therapy ; RNA, Messenger ; biosynthesis ; genetics ; Random Allocation ; Thromboplastin ; biosynthesis ; genetics