Working With Indigenous Services And Communities To Reduce The Harms From Alcohol
Funder
National Health and Medical Research Council
Funding Amount
$474,513.00
Summary
Indigenous Australians face up to eight times the rate of hospitalisation for alcohol-related conditions. Reducing this burden will be key to closing the health gap. Professor Kate Conigrave will build on longstanding partnerships with Indigenous communities, services and health professionals to conduct a 5-year program of work aimed at improving treatment and prevention of alcohol problems. This will span settings including Indigenous primary health services, prisons and whole communities.
Identifying The Relationships Between Pathophysiology, Heterogeneity And Clinical Wellbeing In Parkinson’s Disease
Funder
National Health and Medical Research Council
Funding Amount
$452,051.00
Summary
This research will investigate the key predictors of dementia, poor quality of life, falls, carer burden, need for institutionalisation and health care utilisation in PD. The research will incorporate sophisticated brain scanning techniques as well as diverse and novel technologies that measure brain functioning. The outcomes of this research will inform clinical practice, health care reform and the development of targeted therapies.
Obstructive sleep apnea (OSA) is increasing in prevalence due to the ageing and increasing overweight and obesity of populations worldwide. This Fellowship will 1. Find new, cost-effective strategies to prevent and diagnose OSA; 2. Lead to a deeper understanding of the cardiovascular and neuro-behavioural consequences of OSA and the likely benefits of OSA treatment; and 3. Discover more effective and cost-effective therapies that are targeted toward a patient’s specific type of OSA.
Optimising Emergency And Trauma Systems Through Evidence Based Pathways
Funder
National Health and Medical Research Council
Funding Amount
$418,049.00
Summary
Developing systems for emergency and trauma care based on strong evidence and robust data systems is crucial to the acute health sector. Through an extensive, well recognised collaboration of research groups at The Alfred, Monash and the National Trauma Research Institute, we aim to undertake world leading systems development both locally and globally, focusing on prehospital, emergency and trauma clinical care pathways significantly reducing mortality and improving functional outcomes.
The Generation Of High Quality Evidence In Critical Care Medicine Through Multicentre Randomized Controleld Trials And Its Translation Into Practice
Funder
National Health and Medical Research Council
Funding Amount
$240,121.00
Summary
This research program will establish new approaches to sepsis, traumatic brain injury, kidney protection, transfusion, post-operative care, sedation, antibiotics and mobilization of acutely ill patients. Experimental research will help understand why the kidney malfunctions during severe infection. Database investigations will identify of successful patterns of treatment and potential new fields of investigations. Informatics based studies will use electronic data to develop decision support sys ....This research program will establish new approaches to sepsis, traumatic brain injury, kidney protection, transfusion, post-operative care, sedation, antibiotics and mobilization of acutely ill patients. Experimental research will help understand why the kidney malfunctions during severe infection. Database investigations will identify of successful patterns of treatment and potential new fields of investigations. Informatics based studies will use electronic data to develop decision support systems to improve patient care.Read moreRead less
Improving Outcomes For Critically Ill Patients After Traumatic Brain Injury And Blood Transfusion
Funder
National Health and Medical Research Council
Funding Amount
$418,049.00
Summary
The Fellowship will support an academic clinician to lead the Alfred Intensive Care Department, and the Monash ANZIC Research Centre. Two pivotal NHMRC supported clinical trials, led by the Fellow, are each the largest and most definitive trials in their fields, and will complete during Fellowship and provide extensive data for research outputs. Concurrently, a new research program to improve patients function and quality of life after critical illness, will be supported.
This Fellowship will enable research into the basis for life-threatening infection in the critically ill, including severe pneumonia, septic shock and the complexities of antibiotic resistance in bacteria, as well as the translation of this research into practice (including rapid diagnostics).
Sepsis is a major cause of hospitalization and ICU admission in Australia population corresponding to more than 15700 new cases each year. Every year more than 3000 people die from sepsis in Australia which is greater than the annual national road toll and breast, prostate or colorectal cancer. The research outlined in this proposal to study the effect of steroids and vitamin D to improve patient’s recovery from sepsis and also understand the genetic basis behind their ability to survive sepsis.
The incidence of melanoma in Australia continues to increase, with Queensland having the highest incidence worldwide. This research uses latest advances in genomics, imaging technologies and microbiopsy devices to develop a personalized screening program for high-risk individuals, with the aim of improving early detection, and reducing the burden of melanoma.
Translational Research On Malignant Pleural Effusion And Pleural Infection
Funder
National Health and Medical Research Council
Funding Amount
$487,891.00
Summary
I am a leading researcher in pleural effusions (fluid build-up in the chest) from cancer and infection. I run a multicentre clinical trial team to answer important questions directly relevant to patient care, as well as a lab research group with proven record of discovery new treatment targets. This fellowship will capitalize on platforms I have built and determine best approach to remove effusions, understand etiologic roles of the fluid ultimately to find ways to stop fluid from forming.