Melanoma is one of Australia s major cancer problems, but we still do not completely understand why certain people are at higher risk than others. This study is focussed on people who have a strong family history of melanoma, and is part of continuing efforts to identify the gene variants that contribute to melanoma risk. Most of the work described takes place as part of national and international collaborations to map and identify these melanoma susceptibility genes and to characterise their ef ....Melanoma is one of Australia s major cancer problems, but we still do not completely understand why certain people are at higher risk than others. This study is focussed on people who have a strong family history of melanoma, and is part of continuing efforts to identify the gene variants that contribute to melanoma risk. Most of the work described takes place as part of national and international collaborations to map and identify these melanoma susceptibility genes and to characterise their effects. Potential benefits from this research will be a better understanding of the place of genetic testing in assessing people s risk of melanoma, particularly if they have relatives with the disease, and way in which skin features like moles should be taken into account in that assessment. In addition, it is likely that better information about the genes altered in melanoma susceptibility and development will point to useful targets for development of novel anti-cancer agents.Read moreRead less
Genetic Analysis Of Type 2 Diabetes In Indigenous Australian Pedigrees.
Funder
National Health and Medical Research Council
Funding Amount
$502,500.00
Summary
Type 2 diabetes is a major world health problem. With 300 million people expected to be affected worldwide by 2025 it is a major economic burden. It is a leading cause of kidney failure, blindness, heart attacks, strokes and amputations. Over 7% of the general Australian population have type 2 diabetes, whilst up to 30% of the population in some indigenous communities are affected by this condition. Very few Australians have not been touched in some way by the shadow of diabetes. The precise cau ....Type 2 diabetes is a major world health problem. With 300 million people expected to be affected worldwide by 2025 it is a major economic burden. It is a leading cause of kidney failure, blindness, heart attacks, strokes and amputations. Over 7% of the general Australian population have type 2 diabetes, whilst up to 30% of the population in some indigenous communities are affected by this condition. Very few Australians have not been touched in some way by the shadow of diabetes. The precise cause of diabetes is unknown, however we do know that it tends to run in families, indicating that inherited tendency is important. This research program will find genes which cause diabetes by searching for them in indigenous Australian pedigrees in which many of the family members are affected by diabetes. Finding the genes which cause diabetes will have significant impact in at least three major ways. Firstly, it will increase our understanding of the disease process. Secondly, it will be possible to develop tests to identify people at risk of diabetes at a very early stage so that therapy can be introduced and complications averted. Thirdly, it will be possible to develop new and more effective approaches for the prevention and treatment of type 2 diabetes.Read moreRead less
Oxidation Of Mismatch: A New Concept For Mutation Detection Which Avoides A Separation Method In Mutation Scanning
Funder
National Health and Medical Research Council
Funding Amount
$143,000.00
Summary
Detection of faults (mutations) in genes is expensive but essential for proper genetic health care. Because of the cost of such tests many people are not diagnosed either through diagnostic labs or research of the cost of such tests many people are not diagnosed either through diagnostic labs or research projects. Such research projects are inhibited due to the complexity of the current methods. Current methods are complex and expensive, especially looking for a possible fault, due to what is ca ....Detection of faults (mutations) in genes is expensive but essential for proper genetic health care. Because of the cost of such tests many people are not diagnosed either through diagnostic labs or research of the cost of such tests many people are not diagnosed either through diagnostic labs or research projects. Such research projects are inhibited due to the complexity of the current methods. Current methods are complex and expensive, especially looking for a possible fault, due to what is called a preparation step on complex and expensive equipment. We will develop and commercialise a simpler test because separation is avoided.Read moreRead less
Identification Of The Gene For A Novel Syndrome Of Gastric Adenocarcinoma And Proximal Polyposis Of The Stomach (GAPPS)
Funder
National Health and Medical Research Council
Funding Amount
$378,152.00
Summary
We have identified a previous undescribed syndrome of multiple polyps in the stomach, and a tendency to develop stomach cancer. We are now want to identify the gene responsible, and to determine if it plays a part in the development of other cancers that occur outside people with this rare syndrome.
Gene Discovery And Characterisation In The Familial Focal Epilepsies
Funder
National Health and Medical Research Council
Funding Amount
$428,065.00
Summary
Around 2% of people have epilepsy at some time in their lives. A large proportion of cases are thought to have a genetic cause, but genes have not yet been identified for most patients. The aim of this project is to use state-of-the-art genetic methods to identify genetic mutations causing epilepsy and to then study the effects of these mutations to better understand the biological causes of epilepsy. This in turn will lead to better diagnosis of epilepsy and improved treatment for patients.
Analysis Of Circulating Tumour DNA For Mutational Characterisation And Tracking Disease Progression In Multiple Myeloma
Funder
National Health and Medical Research Council
Funding Amount
$908,676.00
Summary
Multiple myeloma is cancer of plasma cells in the bone marrow and presents at multiple sites with dissimilar genetic information (GI) across these sites. Invasive biopsies of multiple sites are required to determine the GI. Cancer cells shed small amounts of DNA into the blood stream and this circulating DNA (ctDNA) contains GI from multiple cancer sites. This project will evaluate the utility of ctDNA to determine GI and to predict treatment response in MM patients.
Enhancing Joint Replacement Outcomes Through National Data Linkage
Funder
National Health and Medical Research Council
Funding Amount
$776,063.00
Summary
This is an Australian Orthopaedic Association National Joint Replacement Registry (AOANJRR) project that involves linking Registry data with state and federal government health datasets. This will help to better understand the complications and factors affecting the rate of complication after hip, knee and shoulder joint replacement. This information will be used to improve outcomes for patients having this surgery.