Compound Culture Media To Improve Human IVF Pregnancies
Funder
National Health and Medical Research Council
Funding Amount
$254,340.00
Summary
In Australia 1 in 6 couples require IVF to conceive. Although pregnancy rates have improved over the last 10 years the live birth rate in Australia per cycle is only 17%. This project will assess a new method for the culture of embryos for the ability to maintain embryo vitality and produce healthy babies.
Reappraisal Of The Mechanisms Underlying Implantation Success Or Failure
Funder
National Health and Medical Research Council
Funding Amount
$750,755.00
Summary
Infertility affects 1:6 Australian couples; these seek help. However, for each IVF cycle, there is only ~18.5% chance of a live birth, significantly due to failure of embryo implantation. We discovered nano-vesicles in the uterine cavity, that are released from the womb lining and taken up by the pre-implantation embryo to improve its implantation potential. We will determine how this extracellular environment can enhance implantation success and circumvent/management of infertility.
I am a reproductive biologist, studying how the environment, both in vivo and in vitro, interacts with oocytes and early embryos in determining both their short and long-term development, with specific interests in application to clinical infertility treatment.
Metabolic And Molecular Determinants Of Embryo Viability
Funder
National Health and Medical Research Council
Funding Amount
$551,321.00
Summary
We know that our health as adults is influenced by the lifestyle of our mothers during pregnancy. In particular, increased risk of adult-onset diseases such as diabetes and cardiovascular disease occurs when small and lean infants at birth are raised in conditions where nutrient intake is not restricted and obesity occurs. This concept of fetal programming is now widely accepted. Our laboratory is leading research in a new concept, that of embryonic programming. We have extensive animal data dem ....We know that our health as adults is influenced by the lifestyle of our mothers during pregnancy. In particular, increased risk of adult-onset diseases such as diabetes and cardiovascular disease occurs when small and lean infants at birth are raised in conditions where nutrient intake is not restricted and obesity occurs. This concept of fetal programming is now widely accepted. Our laboratory is leading research in a new concept, that of embryonic programming. We have extensive animal data demonstrating that exposure of embryos to physiological perturbations alters fetal development, similarly to that occurring in nutrient restriction during pregnancy. Furthermore, there is data from IVF-derived children that their birth-weight is lower than expected, possibly due to the conditions used for conception in the laboratory. How does the response by eggs and embryos, at the time of conception, affect subsequent development? There has been some focus on changes to DNA that are not related to mutations, but structural changes in the DNA that alters gene expression. We call this epigenetics and epigenetic changes are found in embryos, including human embryos following IVF. However, no one knows how such epigenetic changes occur as a result of this stress response by the egg or embryo. Our proposal is to determine the mechanism of how epigenetic alterations take place in eggs and embryos. Our theory is that the mitochondria, the energy producing packages within all cells, are sending signals to the embryo's nucleus. When the egg or embryo finds itself in adverse conditions, the signals change as a result of changes in the energy balance. This in turn changes the activity of enzymes in the nucleus that regulates DNA structure. If we can prove that this relationship occurs, then we can assess these changes in human embryos that are excess to a patient's requirements and learn if programming takes place in human embryos.Read moreRead less
I am a reproductive biologist whose research is focussed around understanding how the early events of conception and embryo development are controlled. Critical aspects of my research are to determine the consequences to pregnancy and adult health if the
Infertility affects one in six couples and is an extremely distressing, expensive and frustrating experience for those that it afflicts. Through gaining a better understanding of the molecular and cellular processes governing ovulation and early embryo development, this team will devise new therapeutic strategies to improve the reproductive health of Australian women.
Determinants Of Reproductive Health: Basic And Translational Studies In Fertility.
Funder
National Health and Medical Research Council
Funding Amount
$12,530,124.00
Summary
Reproductive health is an issue of national and international significance yet there are considerable unmet needs in the key areas of infertility and contraception. The health of each adult is strongly affected by very early events in development, including the effects of genetics and environment on sperm and eggs, and of the intra-uterine environment. This program will use a combination of advanced technologies to address these issues and will translate findings to the clinic, thus improving th ....Reproductive health is an issue of national and international significance yet there are considerable unmet needs in the key areas of infertility and contraception. The health of each adult is strongly affected by very early events in development, including the effects of genetics and environment on sperm and eggs, and of the intra-uterine environment. This program will use a combination of advanced technologies to address these issues and will translate findings to the clinic, thus improving the quality of reproductive health care and the long-term health of Australians.Read moreRead less