Protective Mechanisms Of MAP Kinase Phosphatase 5 In Adipose Tissue Fibrosis, Hepatic Steatosis And Atherosclerosis
Funder
National Health and Medical Research Council
Funding Amount
$352,729.00
Summary
Obesity and associated complications such as diabetes, non-alcoholic fatty liver disease and atherosclerosis are a serious health burden. Recently, we found that MKP5, a molecule that restricts intracellular signaling, plays a central role in preventing these diseases. This collaborative project will elucidate how precisely MKP5 acts and explore how this molecule can be targeted for the development of novel therapeutic strategies in prevention and treatment of human metabolic diseases.
Impact Of Exercise Intervention On The Phenome (Metabolism And Predictive Complications) In Well Characterised Prediabetes And New Onset Type 2 Diabetes Cohorts In China And Australia (TheDiabeEx.JointStudy).
Funder
National Health and Medical Research Council
Funding Amount
$567,323.00
Summary
This proposal will study people with prediabetes or a new diagnosis of type 2 diabetes, compared with a group with normal blood glucose, in China and in Australia. It will examine, in well defined cohorts: 1. the extent of traditional and more novel organ complications and metabolic markers early in the disease course; 2. in people with abnormal blood glucose, the potential benefits of an exercise regimen to their metabolic health, biomarkers and complications.
Improving Health Outcomes In The Tropical North: A Multidisciplinary Collaboration
Funder
National Health and Medical Research Council
Funding Amount
$5,997,916.00
Summary
Improving Health Outcomes in the Tropical North will strengthen partnerships with research institutions in the NT, Qld, WA, NSW, Vic and SA, by undertaking a research agenda that will help close the gap in Indigenous health disadvantage, protect the north from emerging infectious threats and engage regional neighbours. We will establish a northern Australian network that incorporates Indigenous engagement, mentoring and knowledge translation, and facilitates collaboration with southern partners.
An Integrated Health-sector Strategy To Combat COPD And Asthma In Vietnam: A Pragmatic Stepped Intervention Cluster Randomized Trial
Funder
National Health and Medical Research Council
Funding Amount
$1,894,349.00
Summary
Chronic lung diseases are a major challenge for resource limited settings. In Vietnam, where smoking rates in males are around 50%, there is an urgent need for better strategies to prevent and treat chronic obstructive pulmonary disease (COPD) and asthma. We will perform a study of a low-cost integrated intervention including a health-system based smoking cessation program and the targeted use of proven therapy for COPD and asthma - inhaled corticosteroids - to reduce the burden of lung disease.
Role Of Sphingolipid Signalling In Hepatic Insulin Resistance And Its Application In Prediction Of Risk For Type 2 Diabetes And Prediabetes
Funder
National Health and Medical Research Council
Funding Amount
$563,305.00
Summary
Type 2 diabetes is expected to reach epidemic proportions in the coming decades. Prediabetes is usually unrecognized and constitutes a major public health concern that needs earlier interventions, because the majority of prediabetic subjects proceed to T2D. We have identified an enzyme that plays an important role in insulin signalling. The possibility is that the level or activity of this enzyme is a potential biomarker of the prediabetes state and could be also used as a target
RARE-Bestpractices: Best Practices For Management Of Rare Diseases
Funder
National Health and Medical Research Council
Funding Amount
$640,231.00
Summary
Although by definition rare, over 8000 rare diseases affect approximately 1.2 million Australians. Patient care has suffered from fragmented approaches and lack of information available to health professionals. This project brings together major experts on rare diseases to improve the translation of scientific progress into tangible benefits for patients. The ultimate impact of this work will be the significant improvement of health outcomes and quality of life for rare disease patients and redu ....Although by definition rare, over 8000 rare diseases affect approximately 1.2 million Australians. Patient care has suffered from fragmented approaches and lack of information available to health professionals. This project brings together major experts on rare diseases to improve the translation of scientific progress into tangible benefits for patients. The ultimate impact of this work will be the significant improvement of health outcomes and quality of life for rare disease patients and reducing inequality in care.Read moreRead less
This project will investigate the causes of respiratory disease and poor lung function across the life course. Using existing lung health data from Australia and Europe, we will determine which behavioral, environmental, occupational, nutritional, other modifiable lifestyle, or genetic factors play a role in lung health. This research will enable the development of a personalised risk predictor application for implementation with patients and health care providers as well as the general public.
BRAIN-MEND: Biological Resource Analysis To Identify New Mechanisms And Phenotypes In Neurodegenerative Diseases
Funder
National Health and Medical Research Council
Funding Amount
$861,866.00
Summary
Current classification of neurodegenerative diseases (ND) based on clinical phenotypes does not take into account underlying disease heterogeneity, or overlapping disease mechanisms, thus hindering therapy development. Segregation and re-classification of ND phenotypes is urgently needed. BRAIN-MEND will reclassify existing phenotypic classifications using using pathway and network analyses within and across complex NDs.
Longitudinal Transcriptome Profiles For People With Dementia
Funder
National Health and Medical Research Council
Funding Amount
$475,913.00
Summary
Over the past decade, less than half a percent of drugs trialled for Alzheimer Disease were found to be effective. This highlights the need for new drug targets. This Fellowship aims to study how genes express themselves over time, among people with very high risk of dementia (genetic form of Alzheimer Disease and Huntington Disease). By looking at gene expression in nerve tissue in the nose, fluid around the brain, and blood, I hope to better understand the disease mechanisms causing dementia.