• Journal of Animal Science and Technology
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• v.48 no.3
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• pp.353-360
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• 2006

This study was performed to investigate the effects of artificial stimulation on the increase of the oocyte activation, to evaluate the expression of cyclin B1 protein levels in enucleated mouse oocytes, and to investigate correlation between the oocyte activation and the cyclin B1 protein levels. The oocyte activation was induced by 7% ethanol (EtOH) or 10μg/ml Ca-ionophore with or without 10μg/ml cycloheximide (CH). The activation rate was significantly higher in both single (p<0.05) and combined (p<0.01) stimulated groups compared to control group. The cyclin B1 protein level was significantly reduced in both stimulated groups (p<0.05), except for EtOH+CH treatment group. The expression of cyclin B1 protein showed a higher negative correlation with activation rate in EtOH+CH (r=0.61, p<0.05) and Ca+CH (r=0.86, p<0.01) stimulation groups, but not in a both single stimulation groups. Taken together, it can be suggested that single (EtOH and Ca- ionophore) and combined (EtOH+CH and Ca+CH) stimulation increases the oocyte activation, especially combined stimulation, because it induces the degradation of cyclin B1 protein after artificial stimulation treatments in mouse oocytes.

• Clinical and Experimental Reproductive Medicine
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• v.41 no.3
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• pp.137-139
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• 2014

The effect of artificial oocyte activation (AOA) with a calcium ionophore on intracytoplasmic morphologically selected sperm injection (IMSI) was examined in patients with histories of repeated failed implantation attempts. Four singleton pregnancies and one twin pregnancy were obtained after embryos transfer (5/14, 35.7%). Therefore, AOA combined with IMSI can be considered an option for cycles with a fertilization defect and recurrent implantation failures.

• Clinical and Experimental Reproductive Medicine
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• v.42 no.2
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• pp.45-50
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• 2015

Objective: Artificial oocyte activation (AOA) is an effective method to avoid total fertilization failure in human in vitro fertilization-embryo transfer (IVF-ET) cycles. AOA performed using a calcium ionophore can induce calcium oscillation in oocytes and initiate the fertilization process. We evaluated the usefulness of AOA with a calcium ionophore in cases of total fertilization failure in previous cycles and in cases of severe male factor infertility patients with non-motile spermatozoa after pentoxifylline (PF) treatment. Methods: The present study describes 29 intracytoplasmic sperm injection (ICSI)-AOA cycles involving male factor infertility at Cheil General Hospital from January 2006 to June 2013. Patients were divided into two groups (control, n=480; AOA, n=29) depending on whether or not AOA using a calcium ionophore (A23187) was performed after testicular sperm extraction-ICSI (TESE-ICSI). The AOA group was further split into subgroups according to sperm motility after PF treatment: i.e., motile sperm-injected (n=12) and non-motile sperm-injected (n=17) groups (total n=29 cycles). Results: The good embryo rate (52.3% vs. 66.9%), pregnancy rate (20.7% vs. 52.1%), and delivery rate (10.3% vs. 40.8%) were lower in the PF/AOA group than in the control group. When evaluating the effects of restoration of sperm motility after PF treatment on clinical outcomes there was no difference in fertilization rate (66.6% vs. 64.7% in non-motile and motile sperm, respectively), pregnancy rate (17.6% vs. 33.3%), or delivery rate (5.9% vs. 16.7%) between the two groups. Conclusion: We suggest that oocyte activation is a useful method to ensure fertilization in TESE-ICSI cycles regardless of restoration of sperm motility after PF treatment. AOA may be useful in selected patients who have a low fertilization rate or total fertilization failure.

• Molecules and Cells
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• v.40 no.8
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• pp.558-566
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• 2017

Regular monitoring on experimental animal management found the fluctuation of ART outcome, which showed a necessity to explore whether superovulation treatment is responsible for such unexpected outcome. This study was subsequently conducted to examine whether superovulation treatment can preserve ultrastructural integrity and developmental competence of oocytes following oocyte activation and embryo culture. A randomized study using mouse model was designed and in vitro development (experiment 1), ultrastructural morphology (experiment 2) and functional integrity of the oocytes (experiment 3) retrieved after PMSG/hCG injection (superovulation group) or not (natural ovulation; control group) were evaluated. In experiment 1, more oocytes were retrieved following superovulation than following natural ovulation, but natural ovulation yielded higher (p < 0.0563) maturation rate than superovulation. The capacity of mature oocytes to form pronucleus and to develop into blastocysts in vitro was similar. In experiment 2, a notable (p < 0.0186) increase in mitochondrial deformity, characterized by the formation of vacuolated mitochondria, was detected in the superovulation group. Multivesicular body formation was also increased, whereas early endosome formation was significantly decreased. No obvious changes in other microorganelles, however, were detected, which included the formation and distribution of mitochondria, cortical granules, microvilli, and smooth and rough endoplasmic reticulum. In experiment 3, significant decreases in mitochondrial activity, ATP production and dextran uptake were detected in the superovulation group. In conclusion, superovulation treatment may change both maturational status and functional and ultrastuctural integrity of oocytes. Superovulation effect on preimplantation development can be discussed.

• Korean Journal of Animal Reproduction
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• v.22 no.4
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• pp.395-403
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• 1998

In this study we determined fertilization processes and developmental ability of porcine oocytes following injection of round spermatid in the presence and absence of artificial activation. Electrical stimulation at 2 h before spermatid injection significantly increased the incidence of normal fertilization as compared to those following injection without stimulation or with stimulation immediately after injection. The incidences of two pronuclear formation and apposition were not different in oocytes between following intracytoplasmic spermatid and spermatid nucleus injection. Indirect immunocyto chemistry and laser scanning confocal microscopy study revealed that microtubuels were organized from the oocyte cortex following round spermatid injection, and this seemed to move both male and female pronuclei into the oocyte center. At 6 days following injection blastocoele formation was seen in the eggs following round spermatid (25%) and round spermatid nucleus injection (27%). However, none of oocytes developed to the blastocyst stage at 6 days following sham injection. The average cell numbers of blastocysts at 8 days following injection of spermatid and spermatid nucleus were 87 to 99. These results suggested that either round spermatid or it's nudeus can be used to produce viable embryos by injection into unfertilized oocytes in the pig.

• Clinical and Experimental Reproductive Medicine
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• v.26 no.2
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• pp.193-201
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• 1999

In this study we determined fertilization processes and developmental ability of porcine oocytes following injection of round spermatid in the presence of artificial activation. Electrical stimulation at 3 h before spermatid injection significantly increased the incidence of normal fertilization as compared to those following injection without stimulation or with stimulation immediately after injection. The incidences of two pronuclear formation and apposition were not different in oocytes between following intracytoplasmic spermatid and spermatid nucleus injection. Indirect immunocytochemistry and laser scanning confocal microscopy study revealed that micro tubules were organized from the oocyte cortex following round spermatid injection, and this seemed to move both male and female pronuclei into the oocyte center. Paternal mitochondria which are introduced with spermatid have been observed up to 4-cell. Our study indicated that either round spermatid or it's nucleus can be used to produce viable bovine embryos by injection into unfertilized oocytes.