Neurodegeneration In The Ageing Brain: How The Pathways Leading To Aggregated Protein Cause Disease
Funder
National Health and Medical Research Council
Funding Amount
$12,322,838.00
Summary
The team consists of eight highly experienced research scientists who are dedicated to solving the question of how the brain degenerates in the elderly when associated with the accumulation of certain proteins: e.g. A_ amyloid (Alzheimer�s disease) and PrP (Creutzfeldt-Jakob disease). Understanding the molecular pathways leading to the degeneration (loss of neuronal synapses) will permit the development of rational diagnostic and therapeutic interventions. Over the past five years the program ha ....The team consists of eight highly experienced research scientists who are dedicated to solving the question of how the brain degenerates in the elderly when associated with the accumulation of certain proteins: e.g. A_ amyloid (Alzheimer�s disease) and PrP (Creutzfeldt-Jakob disease). Understanding the molecular pathways leading to the degeneration (loss of neuronal synapses) will permit the development of rational diagnostic and therapeutic interventions. Over the past five years the program has identified several diagnostic and therapeutic avenues which are now being developed by the Pharmaceutical and Biotechnology industries. Much more research is still required for maximizing the chances of success using these approaches.Read moreRead less
Muscularskeletal Pain, Injury And Health: Improving Outcomes Through Conservative Management
Funder
National Health and Medical Research Council
Funding Amount
$8,123,518.00
Summary
Musculoskeletal pain and injury is a major health issue facing our ageing society. The cost in terms of health care and lost productivity is second only to cardiovascular disease. This Program will address the major musculoskeletal disorders such as spinal pain and osteoarthritis. The team will undertake research with the potential for real and enduring impact on these conditions - from the physiological basis for their occurrence, to trials of innovative drug-free conservative treatments.
Generating The Evidence For New Strategies To Combat Cardiovascular Diseases.
Funder
National Health and Medical Research Council
Funding Amount
$12,809,917.00
Summary
The Program brings together clinicians, epidemiologists and statisticians in a unique endeavour combating heart attack and stroke. For the foreseeable future, these conditions will remain leading causes of death and disease in Australia and the world. While there are many established treatment and prevention strategies there remains great potential for further advances to avert large numbers of deaths and serious disabling outcomes. This Program will provide new information that will give patien ....The Program brings together clinicians, epidemiologists and statisticians in a unique endeavour combating heart attack and stroke. For the foreseeable future, these conditions will remain leading causes of death and disease in Australia and the world. While there are many established treatment and prevention strategies there remains great potential for further advances to avert large numbers of deaths and serious disabling outcomes. This Program will provide new information that will give patients, doctors, consumers and policy makers new options for disease prevention.Read moreRead less
A Program Of Research Addressing The Transition From Health To Advanced Cardiovascular Disease.
Funder
National Health and Medical Research Council
Funding Amount
$13,017,057.00
Summary
Cardiovascular disease (CVD) is the major cause of death and disability in Australia and worldwide. This burden will increase without new knowledge. We will address knowledge gaps that delay more effective prevention and control. Our team has a strong track record of influencing clinical practice of CVD prevention, treatment and technology transfer. For many, the first indication of a heart problem is sudden heart attack or death. By understanding mechanisms we aim to develop new tests and treat ....Cardiovascular disease (CVD) is the major cause of death and disability in Australia and worldwide. This burden will increase without new knowledge. We will address knowledge gaps that delay more effective prevention and control. Our team has a strong track record of influencing clinical practice of CVD prevention, treatment and technology transfer. For many, the first indication of a heart problem is sudden heart attack or death. By understanding mechanisms we aim to develop new tests and treatments that prevent heart attack, heart failure and other serious consequences of atherosclerosis.Read moreRead less
Patient Safety: Enabling And Supporting Change For A Safer And More Effective Health System
Funder
National Health and Medical Research Council
Funding Amount
$8,878,409.00
Summary
Internationally, patient safety is a growing concern. Patient harm occurs in 10% of hospital admissions. A million adverse events occur in general practice each year in Australia. Overseas data reports that patients receive recommended care only 50% of the time. We will significantly advance this work by investigating how and why this ccurs, with a focus on the roles of teamwork, safe medication use and the application of information technology to support improved decision-making.
IMPROVING STROKE OUTCOMES: NEW TARGETS AND THERAPIES
Funder
National Health and Medical Research Council
Funding Amount
$7,212,064.00
Summary
Previously we established a unique collaboration of researchers from the basic and clinical sciences.. The main aim of this ' vertically integrated ' model was to develop new therapies to improve stroke outcomes. We developed a system to identify ' off-the-shelf ' compounds which protect the brain after stroke onset. This involves data assimilation (meta-analysis) in a unique way, an approach which has attracted attention internationally. We are also completing an important clinical trial using ....Previously we established a unique collaboration of researchers from the basic and clinical sciences.. The main aim of this ' vertically integrated ' model was to develop new therapies to improve stroke outcomes. We developed a system to identify ' off-the-shelf ' compounds which protect the brain after stroke onset. This involves data assimilation (meta-analysis) in a unique way, an approach which has attracted attention internationally. We are also completing an important clinical trial using the clot dissolving agent tPA to extend the time during which the drug may be effective beyond the three-hours currently used. In the next phase of our program we plan to expand the basic science component to identify parts of brain cells (axons and dendrites) which may yield important information about new drugs to protect the brain. We will use our novel summary data technique to test drugs in animal models more appropriate to the human stroke paradigm than have been used in the past In clinical studies we will follow our theme of identifying new targets for therapy using sophisticated PET and MRI imaging techniques, both in patients who are at great risk of stroke recurrence after a minor warning stroke and those with stroke caused by bleeding within the brain. These studies will provide information about predictors of recurrent and worsening stroke which may be modified by new therapies. The final stage in identifying new therapies is the Phase III clinical trial. We will complete one of these in which the most appropriate drug preventing further strokes in a major new stroke subtype will be identified. Toward the end of the program, we will commence phase 3 studies of drugs we have selected as being most likely to protect the brain based on our animal experiments. The main benefit of this unique collaborative research model is to efficiently identify new therapies to reduce the burden of stroke, currently the second most common cause of death globally.Read moreRead less