The Genetic And Environmental Determinants Of Amyloid Deposition In Older Individuals: An Amyloid Imaging Study Using The Twin Design
Funder
National Health and Medical Research Council
Funding Amount
$643,267.00
Summary
Alzheimer’s disease is characterised by the deposition of amyloid plaques in the brain. We don’t fully understand how amyloid deposition occurs and what contribution is made by genetic and environmental factors. Amyloid deposition in the brain can now be quantified during life using positron emission tomography. In this study, we will examine brain amyloid in twins, which will determine what proportion of the pathology is attributable to environmental factors that may be modifiable.
Multidimensional Assessment Of The Health Impacts Of Infrasound: Two Randomised Controlled Trials
Funder
National Health and Medical Research Council
Funding Amount
$1,943,934.00
Summary
The human health impact of infrasound that comes from wind turbines has not been well researched. We will assemble a team of researchers with a broad range of expertise to run a short term and longer term study to investigate whether exposure to infrasound causes health problems. The short term study will be lab based and run for three one week periods and the longer term study will be community based and run for six months. Sleep quality, balance, mood, cardiovascular health will be measured.
The Older Australian Twins Study (OATS) Of Healthy Brain Ageing And Age-related Neurocognitive Disorders
Funder
National Health and Medical Research Council
Funding Amount
$940,960.00
Summary
Ageing is associated with cognitive decline and dementia. It is still not completely understood what relative contributions genes and environment play in these. This project is an extension of the Older Australian Twins Study to examine genetic and environmental factors associated with late life brain changes and dementia, and will establish an internationally significant cohort for novel discovery.
BRIDGET: BRain Imaging, Cognition, Dementia And Next Generation GEnomics: A Transdisciplinary Approach To Search For Risk And Protective Factors Of Neurodegenerative Disease
Funder
National Health and Medical Research Council
Funding Amount
$1,081,489.00
Summary
Alzheimer’s disease (AD) begins many years before diagnosis and yet its aetiology is still poorly understood. The BRIDGET consortium aims to identify genetic variants that are associated with structural brain ageing, cognitive performance, and dementia risk in richly phenotyped international and Australian population-based samples. This work aims to provide crucial information on the molecular pathways leading to AD, potentially leading to improved health outcomes for our ageing population.
Osteoporosis is a major and increasing public health problem. Fracture, the ultimate consequence of osteoporosis is associated with significant morbidity, mortality and economic costs. The Dubbo Osteoporosis Epidemiology Study, starting in 1989, with over 2000 women and men, is one of the longest running epidemiological studies in osteoporosis worldwide. It has been at the forefront of epidemiological advances in osteoporosis. It has identified osteoporotic fracture risks including low bone dens ....Osteoporosis is a major and increasing public health problem. Fracture, the ultimate consequence of osteoporosis is associated with significant morbidity, mortality and economic costs. The Dubbo Osteoporosis Epidemiology Study, starting in 1989, with over 2000 women and men, is one of the longest running epidemiological studies in osteoporosis worldwide. It has been at the forefront of epidemiological advances in osteoporosis. It has identified osteoporotic fracture risks including low bone density and bone loss, muscle weakness and postural instability, as well as the extent of the problem in men, and the significant costs, ill-heath and mortality associated with fracture. Despite the clarification of risk factors over the past decade, there are significant gaps in knowledge about osteoporosis, particularly in the accurate prediction of fracture risk and in identification of factors related to fracture-associated mortality and survival post fracture. Although bone density is one of the best predictors of fracture risk, it incompletely discriminates between those who will fracture from those who will not. Although a number of clinical risk factors, and other measures of bone strength, such as quantitative ultrasound and geometry, have been shown to be independent predictors of fracture risk, it is not clear that these measures can be integrated with BMD to improve fracture prediction. The aim of the current study, is to develop and validate models using bone density, other measures of bone strength and clinical parameters that will more accurately predict fracture risk and mortality following fracture in older men and women. The more precise identification of those at high risk of fracture and at risk for poor outcomes following fracture will provide a rational basis for the development of more cost effective interventions for prevention of fracture and its associated morbidity and mortality.Read moreRead less
The Biology Of Risk For Bipolar Disorder: Genetic Effects In A High-risk Longitudinal Study
Funder
National Health and Medical Research Council
Funding Amount
$856,412.00
Summary
Bipolar disorder is a severe mood disorder affecting over 350,000 Australians. Some children of bipolar disorder patients will also become ill, although currently we have no tools to predict which of these genetically at-risk young individuals will eventually develop symptoms. This study will use genetic information plus brain structural changes to predict which at-risk individuals are likely to become ill. This study will help elucidate early clinical and biological markers of bipolar disorder.
Risk Factors, Early Diagnosis, And Effective Interventions For Neurocognitive Disorders
Funder
National Health and Medical Research Council
Funding Amount
$7,013,299.00
Summary
This program will focus on early detection of dementia, identification of novel risk factors, and development of new treatments, to help the burden of dementia in our community. It will build on three longitudinal studies – Memory and Ageing Study, Older Australian Twins Study and Sydney Centenarian Study, and three international consortia – COSMIC, STROKOG and ICC-Dementia, that the investigators have developed to achieve these aims. A prevention trial for post-stroke dementia is planned
Novel Assessment And Intervention For Dementia: An Inter-disciplinary Translational Approach
Funder
National Health and Medical Research Council
Funding Amount
$720,021.00
Summary
This program of research focuses on i) a highly novel internationally competitive program of work focusing on the neural network correlates of sleep in dementia, sleep as a risk factor and the efficacy of sleep-wake interventions in reducing cognitive decline; ii) Innovative technologies for widespread screening of preclinical dementia and early intervention and iii) clinical trials focused on the testing of a of novel, highly translatable dementia risk reduction interventions.
GENETIC PREDICTION OF FRACTURE IN A RISK-STRATIFIED POPULATION
Funder
National Health and Medical Research Council
Funding Amount
$363,000.00
Summary
Osteoporosis is a condition characterised by excessive bone loss and impaired bone quality, which ultimately results in fracture with minimal trauma. Osteoporosis affects 27% of women and 11% of men aged 60 years or above in the community, and costs Australia around $7 billion each year. Individuals with low bone mineral density (BMD) have a significantly higher risk of fracture than those with normal BMD. In the long-term (14-year) Dubbo Osteoporosis Epidemiology Study, more than half of indivi ....Osteoporosis is a condition characterised by excessive bone loss and impaired bone quality, which ultimately results in fracture with minimal trauma. Osteoporosis affects 27% of women and 11% of men aged 60 years or above in the community, and costs Australia around $7 billion each year. Individuals with low bone mineral density (BMD) have a significantly higher risk of fracture than those with normal BMD. In the long-term (14-year) Dubbo Osteoporosis Epidemiology Study, more than half of individuals with osteoporosis (e.g., low BMD) did not sustain a fracture, while approximately 60% of fracture cases had BMD above the high risk levels. Thus, BMD alone is not a good discriminant of fracture versus non-fracture cases. It is widely known that the liability to fracture is determined in part by genes. Previous studies, including from our group, have suggested a number of candidate genes that are associated with fracture risk. The fundamental issue that this study is concerned is that how and whether genetic markers could be used to facilitate case finding. It is proposed that common variations of certain genes are associated with fracture risk independent of BMD. That is, they can identify individuals at relatively high and low fracture risk after stratification for BMD. Hence, some markers may identify those individuals likely (and unlikely) to fracture even with low (osteoporotic) BMD. Similarly, some, possibly the same, markers may identify individuals at high risk of fracture despite relatively good (ie non-osteoporotic) BMD. It is further proposed that no single gene will achieve this outcome, but rather a small set of such gene polymorphisms will provide clinically useful risk information. This effect is entirely analogous to the use of clinical risk indicators (eg, age, weight, sex, family history, etc) to assess the risk of future fracture.Read moreRead less