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Vertebrate reproductive science and technology
RESEARCH ARTICLE

027. In vitro growth and maturation: how does this technology fit for clinical application?

M. Lane A B , C. Yeo A B , K. S. Cashman A B and H. M. Hamilton A B
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- Author Affiliations

A Research Centre for Reproductive Health, University of Adelaide, SA, Australia

B Repromed, Adelaide, SA, Australia

Reproduction, Fertility and Development 17(9) 69-69 https://doi.org/10.1071/SRB05Abs027
Submitted: 26 July 2005  Accepted: 26 July 2005   Published: 5 September 2005

Abstract

Superovulation protocols used in IVF result in multiple eggs that can be fertilized and grown in the laboratory to allow for selection of the best embryo for return to the mother, thereby increasing the chances for a successful pregnancy. However, there are many side effects of these superovulation drug protocols, such as deep vein thrombosis and hyperstimulation. The latter is of particular concern for women with polycystic ovary syndrome. Furthermore, the use of gonadotrophins has been reported to compromise both oocyte quality and the uterine environment and may contribute to the low success rates of IVF. Therefore the ability to collect large numbers of oocytes from women and mature them in vitro is an attractive alternative. However, although there are reports in the literature on extended maturation/culture periods of human oocytes the pregnancy rates are significantly lower than that observed after in vivo maturation. The ability to offer such technology is currently limited by the lack of understanding of how the conditions for in vitro maturation affect the quality of the oocyte and the resulting embryo. Our research is concentrated on establishing the role of metabolic balance in the oocyte for the maintenance of subsequent viability. We have determined that disruptions to the balance between mitochondrial and cytoplasmic metabolism in animal oocytes have significant adverse consequences for the resultant embryo. Changing conditions for in vitro maturation were also found to alter the establishment of the metabolic settings of the oocyte. The ability to determine the role of such parameters in maturing human oocytes will be important for the prospect of adoption of this technology for routine clinical practice.