Imaging Atlases Of The Brain Of Humans And Experimental Animals
Funder
National Health and Medical Research Council
Funding Amount
$808,375.00
Summary
This project uses imaging techniques and molecular genetics to produce the next generation of brain maps. It will advance our understanding of the organisation and structure of the brain and spinal cord of humans and experimental animals – paving the way for the development of psychotherapeutic drugs and more accurate interventions on the human brain. The new maps will help those who study the brain of patients with diseases such as Alzheimer’s or Parkinson’s or animal models of these diseases.
Hypertension is the major driver of cardiovascular disease affecting over a billion people. The cause is increasingly lifestyle related (obesity and stress) and activation of the nervous system is a major contributor in all cases. My vision for the next 5 years is discover the key underlying mechanisms within the central nervous system and the kidney that are primarily responsible for increasing nervous activity and blood pressure.
Targeting Prevention And Treatment Of Hypertensive Cardiovascular Disease
Funder
National Health and Medical Research Council
Funding Amount
$774,540.00
Summary
Hypertension, high blood pressure, is a major global health burden. It contributes to heart disease, stroke and kidney failure, and as such is a major cause of premature death worldwide. Advances in the treatment of hypertension has meant that more people are living with disabilities associated with cardiovascular disease. Our work focuses on identifying new treatments to prevent the devastating effects of hypertension on organ function to improve quality of life in men and women.
Diabetes Target Discovery And Drug Development In Mice And Primates
Funder
National Health and Medical Research Council
Funding Amount
$705,501.00
Summary
1.7 million Australians have diabetes, only ½ are diagnosed, and the incidence is increasing. Diabetes imposes high economic and social costs in Australia and globally. Diabetes is often not well managed with current therapies, and there is a strong need for new drugs to treat diabetes. This research project will search for new drug targets, to develop better medicines to treat diabetes.
I am a neurochemist-clinical research scientist investigating the interaction between, in particular, brain monoaminergic activity, autonomic function and physiological responses. My studies are largely focussed on determining the aetiology and consequenc
3D Histological And MRI Atlases Of Brain And Spinal Cord For Research And Clinical Practice
Funder
National Health and Medical Research Council
Funding Amount
$876,005.00
Summary
This project uses imaging techniques to produce the next generation of maps of the central nervous system. It will advance our understanding of the organisation and structure of the brain and spinal cord of humans and experimental animals, paving the way for the development of psychotherapeutic drugs and more accurate interventions on the human brain. The new maps will help those who study the brain of patients with diseases such as Alzheimer’s, Parkinson’s or animal models of these diseases.
Gut motility requires enteric neurons, which are located in the gut wall. During development, enteric neurons arise from precursors in the brain that migrate into the intestine. Failure of enteric neuron precursors to migrate and differentiate normally results in pediatric motility disorders. The aim of this research is to identify the mechanisms controlling the development of enteric neurons so that therapies can be developed for pediatric motility disorders.
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.
My projects are associated with three research themes: psychological stress, obesity and hypertension. While these projects may appear diverse they are linked, both in terms of the significant co morbidity that they share, and that the underlying pathologies are initiated and sustained, at least in part, by disturbances in sympathetic nervous regulation. My research program will focus on these conditions and, in their content, will aim to develop and implement improved treatment srategies in the ....My projects are associated with three research themes: psychological stress, obesity and hypertension. While these projects may appear diverse they are linked, both in terms of the significant co morbidity that they share, and that the underlying pathologies are initiated and sustained, at least in part, by disturbances in sympathetic nervous regulation. My research program will focus on these conditions and, in their content, will aim to develop and implement improved treatment srategies in these areas of major clinical need.Read moreRead less
I am a medically trained physiologist studying how the brain controls the delivery of oxygen to the body, the removal of carbon dioxide and the maintenance of normal acid level in the blood. This branch of physiology is well known to anyone who has studied 'ABC' in a first aid programme. My work concerns the coordination of the breathing and blood pressure centres in the brain. It is crucial in the understanding of diseases such as obstructive sleep apnoea and hypertension.