Functional Brain Age Measurement In Children And Adolescents
Funder
National Health and Medical Research Council
Funding Amount
$700,433.00
Summary
An important aspect of medicine is measuring the function of the human body. It is often advantageous to convert complex functional measures into simpler, intuitive measures such as 'age'. We can compare functional age to chronological age to diagnose disease. In this project, we will build an estimate of 'brain age' in children and adolescents using recordings of the electrical activity of the brain. We will test this 'brain age' as a diagnostic tool in several neurological disorders.
Genetic testing of IVF embryos promises to improve success but shows no effect of live-birth rates. Many embryos are mosaic: containing cells with correct and incorrect chromosome numbers. Current testing is an invasive biopsy which fails to diagnose how many cells are abnormal in the cells that develop into the baby. Here we will use imaging to determine the ratio of abnormal:normal cells resulting in a non-invasive diagnostic that will improve IVF success.
Developing Exon Replacement Gene Therapy To Cure Rett Syndrome: An Innovative Model For Neurodevelopmental Disorders
Funder
National Health and Medical Research Council
Funding Amount
$475,105.00
Summary
There is no cure for neurodevelopmental disorders such as Rett syndrome which is caused by mutations in the MECP2 gene. Gene therapy is ineffective due to the 'Goldilocks' effect where too little, as well as too much expression of MECP2 causes disease. Here a gene editing therapy will be tested in patient cells and mouse model that will maintain the normal cellular expression of MECP2 by cutting out the mutated regions of the gene (exons) and replacing them with repaired copies.
A Cellular Identity Crisis: Deciphering How Mammary Epithelial Cells Form And Maintain Their Identity
Funder
National Health and Medical Research Council
Funding Amount
$843,826.00
Summary
The ability to regenerate human organs from adult cells efficiently and without error is a major goal of biomedical research in Australia, with significant economic benefits. As one of the most regenerative organs in a woman's body, the breast is an excellent model to study mechanisms that underpin tissue growth and regrowth. Moreover, as these pathways are often hijacked by cancer, this research has important implications for the development of new targeted therapies to treat breast cancer.