Size matters, but at what cost? Role of male sex hormones in the placenta. This project aims to understand molecular pathways regulated by male sex hormones in the placenta that may contribute to sex-specific fetal growth and survival outcomes in response to reduced oxygen and/or glucose. Through this project, we expect to generate new knowledge of the mechanisms that drive sex-specific placental molecular function using interdisciplinary approaches. The application of this advanced understandin ....Size matters, but at what cost? Role of male sex hormones in the placenta. This project aims to understand molecular pathways regulated by male sex hormones in the placenta that may contribute to sex-specific fetal growth and survival outcomes in response to reduced oxygen and/or glucose. Through this project, we expect to generate new knowledge of the mechanisms that drive sex-specific placental molecular function using interdisciplinary approaches. The application of this advanced understanding of the sex-specific regulation of placental molecular function and fetal growth may be targeted in future studies to improve fetal growth outcomes in placental mammals such as livestock, domestic pets, and humans.Read moreRead less
Opening and closing doors in the fetal circulation impacts brain metabolism. This project aims to measure blood flow from the umbilical cord through special shunts or doors to the fetal brain and to understand how changes in delivery of oxygen may impact fetal brain metabolism. This fundamental phenomenon will be measured with novel MRI protocols developed by a multidisciplinary, international team. Expected outcomes of this project include world-leading advances in measuring fetal blood flow ....Opening and closing doors in the fetal circulation impacts brain metabolism. This project aims to measure blood flow from the umbilical cord through special shunts or doors to the fetal brain and to understand how changes in delivery of oxygen may impact fetal brain metabolism. This fundamental phenomenon will be measured with novel MRI protocols developed by a multidisciplinary, international team. Expected outcomes of this project include world-leading advances in measuring fetal blood flow and brain metabolism with exchange of expertise between leading researchers in Australia and Canada and their trainees. In the long-term, this should provide significant benefits in enhancing Australia’s research capacity in fetal physiology and may lead to new tools for monitoring or supporting fetal development.Read moreRead less
The immune response as a determinant of female reproductive investment. Aims: This project will define how ‘cryptic female choice’ affects reproductive outcomes through immune recognition of embryo histocompatibility genes, to modulate maternal nutrient provision and fetal growth.
Significance: The research will tackle an important knowledge gap in animal reproduction science, where poorly-understood male-female compatibility effects cause variation in breeding efficiency with major economic an ....The immune response as a determinant of female reproductive investment. Aims: This project will define how ‘cryptic female choice’ affects reproductive outcomes through immune recognition of embryo histocompatibility genes, to modulate maternal nutrient provision and fetal growth.
Significance: The research will tackle an important knowledge gap in animal reproduction science, where poorly-understood male-female compatibility effects cause variation in breeding efficiency with major economic and environmental impact.
Expected outcomes: We expect to generate new understanding of the genes, immune response elements, and vascular changes that explain compatibility effects.
Benefits: The results will inform strategies to improve fertility in livestock animals, and in rare and threatened species.
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