Understanding Epigenetic Modification During Oogenesis For Novel Treatments Of Female Infertility
Funder
National Health and Medical Research Council
Funding Amount
$314,644.00
Summary
Infertility affects about 10% of Australian women and the success rates of current infertility treatments are low due to our poor knowledge of eggs development. The numbers of obese and older women trying to conceive are increasing; fertility treatments are even less effective for them. I have generated mouse models to elucidate the pathways regulating egg development. I will study for alterations in these pathways in the mouse models which perfectly mimic the obesity and aging in women.
Thalamocortical Neural Circuits In Higher Order Cognitive And Sensory Processing
Funder
National Health and Medical Research Council
Funding Amount
$370,860.00
Summary
Schizophrenia, depression and dementia are devastating disorders with problems in thinking and sensory perception, but the neural circuits causing these symptoms are not known. I will use new optical and genetic tools in mice to identify the cortical and subcortical circuits required for complex touchscreen tasks, the same tasks to assess patients. Identification of neural circuits that underlie clinical symptoms will increase our understanding of these disorders and improve treatments.
Improving Physical Health Outcomes For Young People With Psychotic Disorders
Funder
National Health and Medical Research Council
Funding Amount
$189,384.00
Summary
Enduring psychotic disorders are associated with a reduced life expectancy by 25 years, which is mainly due to cardiovascular disease. This project will produce a training package that will improve clinician’s skills and knowledge of screening and treatment for physical health risk factors in young people with psychosis. This project will result in the development of an intervention for reducing the prevalence of these cardiovascular risk factors known to contribute to this early mortality.
Many infants and children suffer from bowel motility disorders, for example, chronic constipation affects up to 1 in 10 children. However, the cause of many of these paediatric motility disorders remains unknown. In this project, we will examine the development of wiring of the nervous system that controls bowel motility. This is the first study to investigate the development of cell-cell communication during early stages of nervous system development.
From Brain Maps To Mechanisms: Modeling The Pathophysiology Of Schizophrenia
Funder
National Health and Medical Research Council
Funding Amount
$320,891.00
Summary
My Fellowship will develop a framework that integrates brain imaging data with mathematical models of the brain to help understand the mechanisms responsible for schizophrenia. By linking functional Magnetic Resonance Imaging (fMRI) measurements to models of their underlying causes, the work may lead to new treatments that target the specific dysfunction in individuals with this debilitating brain disorder.
The Burden And Risk Factors Of Depressive Disorders In Indigenous Australians: Implications For Early Detection And Prevention
Funder
National Health and Medical Research Council
Funding Amount
$318,768.00
Summary
This Fellowship addresses the high rates of depression amongst Indigenous Australians. The proposed work will quantify the extent to which two major risk factors contribute to the burden of depression in this population and the burden avertable from interventions to modify these risk factors. Findings would inform resource allocation and health service delivery, and in doing so, present opportunities for improvements in the health of Indigenous Australians.
Associations Between Urban Nature And Cardiovascular Disease Risk
Funder
National Health and Medical Research Council
Funding Amount
$318,768.00
Summary
Cardiovascular disease (CVD) is the leading cause of death in Australia. Urban nature (e.g. greenness, water, species diversity) is likely to protect against CVD, yet researchers lack knowledge about how this occurs. This project will develop new methods to measure urban nature and examine the relationships with different CVD risk factors (e.g. physical activity, air quality). The results of this project will inform urban planning policy, and help to create healthy cities that reduce CVD.