Identification Of Factors Essential For Oocyte Viability
Funder
National Health and Medical Research Council
Funding Amount
$220,500.00
Summary
Approximately 2% Australia children are now conceived using in vitro fertilisation technologies, allowing infertile couples to bear their own children. However, a major consequence of IVF techniques is multiple pregnancies (i.e. twins and triplets) which is a major health risk to mothers and their infants. Furthemore, IVF increases birth defects, which are mostly attributed to the increased multiple pregnancies, but is also observed in pregnancies involving a single infant. It is essential that ....Approximately 2% Australia children are now conceived using in vitro fertilisation technologies, allowing infertile couples to bear their own children. However, a major consequence of IVF techniques is multiple pregnancies (i.e. twins and triplets) which is a major health risk to mothers and their infants. Furthemore, IVF increases birth defects, which are mostly attributed to the increased multiple pregnancies, but is also observed in pregnancies involving a single infant. It is essential that IVF techniques are developed that enables the transfer of a single embryo to the mother resulting in the birth of a single healthy baby, without the ethical concerns of surplus embryo disposal. Women receiving IVF are required to adminster hormones that stimulate the eggs in their ovaries to mature to the point where they can be fertilised by their partner's sperm. These hormones, called gonadotrophins, override the body's own ovarian stimulating system and cause many eggs to mature and be collected for fertilisation, instead of normally just one. In this way, the best embryo(s) can be selected for transfer back to the mother, and other embryos can be frozen and stored for later use. However, large doses of gonadotrophins has consequences. They can be dangerous to some patients who are sensitive to their potency, and stimulate a massive response. They also reduce the quality of eggs and subsequent embryos, which reduces the chances of a pregnancy. All this can be avoided if eggs can be collected from ovaries in an immature state and maturation achieved in the laboratory. However, although attempted, this has not been a successful technique, primarily because we don't understand the process of human egg maturation. Our research will investigate the biochemistry, physiology and genetics of non-human eggs and embryos resulting from eggs that are grown and matured in the laboratory, to develop techniques for the successful maturation of human eggs in the laboratory.Read moreRead less
RNA Binding Protein Musashi: Role In Folliculogenesis And Oocyte Development
Funder
National Health and Medical Research Council
Funding Amount
$419,223.00
Summary
Women in Australian have opted for social and economic reasons to delay both marriage and childbirth. Both infertility and congenital abnormality is associated with advancing maternal age as the ovarian pool of oocytes declines in number and quality. In this project we aim to gain an understanding of the molecular mechanisms underpinning healthy oocyte development. Insights gained have the potential to alleviate miscarriage, infertility and congenital abnormalities in Australian families.
A Novel Procedure For Efficacious Gonadotrophin-free Infertility Treatment
Funder
National Health and Medical Research Council
Funding Amount
$436,328.00
Summary
Infertility is common and is associated with health risks and is expensive. Using laboratory animals, we have developed a unique procedure, which has comparable success rates to IVF but crucially, it eliminates the need for ovarian hormone therapy used in IVF. A clinical trial using this method has started in Brussels and in this project we will examine cells from that trial and from animals to investigate the underlying mechanisms to enable safe and rapid clinical implementation.
Role Of The Anaphase-Promoting Complex Activator Cdh1 In Oocyte Maturation And Meiotic Aneuploidy
Funder
National Health and Medical Research Council
Funding Amount
$526,878.00
Summary
Eggs containing an incorrect number of chromosomes are described as aneuploid. This project sets out to examine the molecular causes of aneuploidy and why it increases with female age. We focus on the protective role of the protein Cdh1 in this process. The outcome would be to better understand the origins of aneuploidy so as to find methods of decreasing it as women age. This is highly significant given aneuploidy is the leading cause of early embryo loss and produces Down Syndrome babies.
The Role Of Growth Differentiation Factor 9 (GDF9) In Human Fertility
Funder
National Health and Medical Research Council
Funding Amount
$568,811.00
Summary
IVF comes at a substantial financial burden to the Australia health system through Medicare. There is mounting evidence to suggest that egg quality is the key limiting factor in female fertility. The aim of this proposal is to produce a key egg-secreted protein which is critical for the ability of the egg to be fertilized and to develop a diagnostic assay to measure egg quality to improve the treatment of infertility.
One in five Australian couples experience infertility and poor egg quality is a major contributing factor. Developing eggs in the ovary are surrounded by helper cells and we have discovered a new form of communication between these cells and the egg that regulates egg quality. This project will investigate the details of this dialogue and how it improves egg quality. New knowledge gained from this project will improve our understanding and treatment of infertility and reproductive diseases.
Obesity And Infertility: Effects Of Diet-induced Insulin Resistance On Oocyte Quality.
Funder
National Health and Medical Research Council
Funding Amount
$533,510.00
Summary
The health of an embryo (and subsequently child) is largely determined by the health of the mother. It is well documented that women who have poor pre-pregnancy health due to obesity are more likely to have difficulty conceiving due to irregular ovulations and early embryo loss. My research using obese mice has found that these fertility problems are partly due to alterations in the oocytes (eggs) within the ovary. Its surrounding cells and fluid provide the oocyte with all of its required nutri ....The health of an embryo (and subsequently child) is largely determined by the health of the mother. It is well documented that women who have poor pre-pregnancy health due to obesity are more likely to have difficulty conceiving due to irregular ovulations and early embryo loss. My research using obese mice has found that these fertility problems are partly due to alterations in the oocytes (eggs) within the ovary. Its surrounding cells and fluid provide the oocyte with all of its required nutrients. I hypothesize that this follicular environment is altered in females that are obese leading to inappropriate nutritional signals and suboptimal development of the oocyte. The goals of my research are to use obese mice to 1) pinpoint exactly which metabolic alterations lead to decreased oocyte development; 2) determine how these metabolic alterations change the oocyte and the cells surrounding it; 3) use the information gained to analyse ovarian cells of women and see if these same alterations occur in women who are obese. The findings will be highly significant because they will 1) provide a greater understanding of how the maternal environment communicates nutritional information to the oocyte, which ultimately forms the developing embryo. 2) expand our knowledge of the optimal nutritional conditions for oocyte and early embryo development. 3) identify biological mechanisms that are altered during obesity and lead to decreased female fertility. 4) aid in the development of improved agents for use at fertility clinics, for instance the development of solutions most closely mimicking the critical components of the normal ovarian environment, for use in the culture of oocytes and embryos. 5) provide a strong public health message to women of reproductive age: to achieve and maintain a healthy body weight prior to becoming pregnant.Read moreRead less
BH3-only Proteins Are Critical For The Developmentally Programmed Death Of Oocytes: Impact On Ooctye Quality And The Fertile Lifespan
Funder
National Health and Medical Research Council
Funding Amount
$273,537.00
Summary
The ability of women to have healthy children, and the age at which menopause occurs, are largely dependent on the number and quality of the eggs stored in their ovaries. For unknown reasons, around two-thirds of all eggs die very shortly after they are made. We are unraveling the genes involved in determining whether an egg will live or die, and are investigating the role of these genes as _quality control sentinels", responsible for ensuring that only the highest quality eggs are ovulated.