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The amygdala is a part of the brain that processes and lays down emotional memories. Dysfunction in the amygdala is responsible for anxiety related disorders such post-traumatic stress disorder. I will study the neural circuits in the amygdala using innovative recordings and stimulation techniques. These studies will provide insight into the circuits that underpin anxiety related neurological disorders and provide targets for development of novel anxiolytic agents.
Developmental Neurobiology Of Schizophrenia And Translation Into New Treatments
Funder
National Health and Medical Research Council
Funding Amount
$611,574.00
Summary
Our ultimate goal is to expand effective treatment options for people with schizophrenia particularly ones that can prevent schizophrenia from developing. The successful completion of this project will identify novel biological pathways by which schizophrenia develops and, importantly, will yield new molecular tools to personalise treatment of schizophrenia.
Ovarian and endometrial cancer affect >3,200 women each year in Australia and 3 or 4 women die from these cancers every day. The overall aim of my program of research is to reduce the burden of these cancers in future generations of Australian women by increasing our understanding of (i) what causes them, (ii) how we can optimise patient management to enhance patient outcomes and (ii) how lifestyle changes might improve quality and life and survival, for women who are diagnosed with them.
Development of normal brain function requires information transfer and integration from outside and within the brain. Normal brain wiring is guided by genetic and environmental cues, whose relative contributions remain controversial. This project investigates the physiological and behavioural consequences of abnormal brain wiring, and the potential for controlled environments and targeted interventions to overcome the deficits. Relevance includes neurotrauma as well as mental illnesses.
Regulation Of Cell Death, Cell Survival And Ubiquitination In Normal Physiology And Disease
Funder
National Health and Medical Research Council
Funding Amount
$823,008.00
Summary
I am a cellular and molecular biologist with extensive training in a number of biomedical research areas. For over 20 years I have used my training and skills to understand the normal functioning of the body and what molecular and cellular changes underlie various diseases. This fellowship will allow me to continue the groundbreaking work we have been doing to explore the function of several proteins in diseases such as cancer, hypertension, lung inflammation and anaemia.
Roles Of Signalling In The Control Of Immune System Development, Function And Pathology
Funder
National Health and Medical Research Council
Funding Amount
$737,936.00
Summary
This research focuses on the function of the NF-?B and MAP kinase biochemical pathways in immune cells. Both pathways regulate gene expression controlling the development, division, viability and function of immune cells. Consistent with these roles, impaired regulation of these pathways contributes to many immune related diseases. My goal is to utilize information learnt about these pathways and apply it to developing therapies for treating diseases afflicting the immune system.
My research focuses on understanding pathobiological mechanisms in acute and chronic neurodegenerative conditions such as stroke and Parkinson’s disease which have large burdens on the community through health care costs and on families because of the lack of effective treatments. An improved understanding of how brain cells die and of how the most abundant brain cell, the astrocyte, can be engineered to be a resource for regenerative medicine offer promise for improved clinical management.