Developmental Programming: Mechanisms And Interventions
Funder
National Health and Medical Research Council
Funding Amount
$705,501.00
Summary
Disturbances during pregnancy can impact on developmental processes and result in increased risk of disease in later life. This project will examine the impact of perturbations such as maternal stress or alcohol consumption on the development of the placenta and fetal kidney. By gaining an understanding of how these organs are affected by prenatal insults, we are likely to be able to develop more effective intervention strategies to ensure all babies receive a healthy start to life.
Associate Professor Kate Denton is an internationally recognised cardiovascular researcher. A focus of Dr Denton’s research is to find out why women do not respond to current treatments as well as men, and how factors in pregnancy (nutrition, stress, alcohol) drive the development of cardiovascular disease in offspring. Dr Denton is also leading research to understand why a new high blood pressure treatment (blocking nerves to the kidney) is proving more effective than expected.
Prof Trevor Mori has held an NH&MRC Research Fellowship during 2008-2012. This grant will enable him to continue his research program into 2013-2017. Prof Mori is a biomedical research scientist. His research examines the role of diet and lifestyle on risk factors for cardiovascular disease. He also leads the cardiometabolic team examining risk factors in the Western Australian Pregnancy (Raine) Study.
Understanding And Preventing Adverse Developmental Effects Of Perinatal Infection/inflammation
Funder
National Health and Medical Research Council
Funding Amount
$621,458.00
Summary
Exposure of babies to infection or inflammation within the womb is common and is associated with preterm delivery and illness in newborns. The biggest problem for these babies is lung disease due to inflammation of the lungs before birth and/or in response to lung injury after birth. We are investigating how inflammation alters lung development, and working on developing a novel cell therapy to prevent life-threatening newborn lung disease.
Infertility remains a devastating disease for many couples, despite the success of IVF, as treatment is often unsuccessful, or remains out-of-reach for both health and/or financial reasons. My fellowship aims to improve our understanding of some of the causes of infertility in women. This will translate to a new infertility treatment that is safer for their health and provides for improved long-term health outcomes for their children.
Interfacing Epidemiology With Systems Biology For Disease Prevention
Funder
National Health and Medical Research Council
Funding Amount
$687,975.00
Summary
Over recent time, allergic and some autoimmune diseases have increased among modern children. The change has been too rapid to be due to genetic factors alone and my research program examines also the role of the changing environment. It also examines the health effects of new man-made exposures like plastic product chemicals.
Implementing Neuroprotective Strategies For Fetal Growth Restriction
Funder
National Health and Medical Research Council
Funding Amount
$782,370.00
Summary
Fetal growth restriction (FGR) is a serious and common complication of pregnancy that is a principal cause of injury to the developing fetal brain. In turn, damage to the developing brain during pregnancy may cause cerebral palsy and other cognitive and behavioural deficits. This proposal builds on my work to date characterising the mechanisms that contribute to neuropathology in FGR infants, by implementing targeted strategies to protect or repair the FGR brain.
There are new genetic technologies on the horizon that will influence decision-making about testing in pregnancy for fetal abnormality and also create a greater need for communication of important genetic information in families. Two areas of my research will focus on these issues. I will also examine how the interaction between genes and the environment during pregnancy, specifically in relation to alcohol use and assisted reproduction, impacts on offspring health and development
Birth is one of the greatest physiological challenges that we will ever experience and so it is not surprising that it is a period of high risk of death. Despite the risk, our understanding of how infants transition from fetal to newborn life is limited. My research is focused on improving our understanding of how infants make the transition at birth so that we can reduce the risks for these most vulnerable of humans. In particular, I want to improve outcomes for infants born very premature.