Discovering Novel Molecules That Regulate Axonal Degeneration.
Funder
National Health and Medical Research Council
Funding Amount
$588,622.00
Summary
The axon is the primary signaling component of every neuron and is essential for normal function. Axonal degeneration is a key early pathological hallmark of Alzheimer’s disease. We lack a basic understanding of molecules that regulate this process. Such knowledge is essential for the development of treatments and therapies for dementia and the preservation of healthy ageing. I aim to discover the molecules that regulate axonal degeneration and study their function.
New Strategies In The Treatment And Imaging Of Neurodegenerative Diseases
Funder
National Health and Medical Research Council
Funding Amount
$934,085.00
Summary
The treatment and diagnosis of brain diseases is one of society’s major challenges. To address these challenges, we need a better understanding of the molecular mechanisms involved in brain disease. We will develop innovative ways in which to probe disease progression, assess efficacy of treatment, and ultimately treat a wide range of brain disorders.
Multiple Sclerosis Therapy: Human Pluripotent Stem Cell-Derived Neural Precursor Cells
Funder
National Health and Medical Research Council
Funding Amount
$1,775,225.00
Summary
Treatments for Multiple Sclerosis (MS) often have unsatisfactory outcomes. The limited ability of the body to repair damaged nerve tissue highlights a critically important need for MS patients. The long-term goal of our research is to develop a stem cell-based therapy that halts disease progression and repairs damaged nerve tissue. Research efforts will refine techniques to make safe and clinically-compatible cells from human stem cell lines and verify the therapeutic activity of these cells.
Formulating New Goals For Global Health And Proposing New Governance For Global Health That Will Allow The Achievement Of These Goals
Funder
National Health and Medical Research Council
Funding Amount
$469,017.00
Summary
The Millennium Development Goals have guided global development since 2000, and are due for evaluation in 2015. Attention is now turning to New Health-Related Goals, with a governance structure to support their implementation. Australian researchers are joining a Go4Health consortium of 13 research institutions to research the development of these goals, examining the input of United Nations agencies and key donors into the process, together with communities, civil society and governments.
Establishing The Physiological And Sleep Disruption Characteristics Of Wind Farm Versus Traffic Noise Disturbances In Sleep
Funder
National Health and Medical Research Council
Funding Amount
$1,357,652.00
Summary
Good sleep is essential for normal daytime functioning and health. Wind farm noise includes audible and unusually low frequency sound components, including infrasound, that could potentially disturb sleep through chronic sleep disruption and/or insomnia. This project will, for the first time, directly evaluate the sleep and physiological disturbance characteristics of wind farm noise compared to traffic noise reproduced in a specialised and carefully controlled laboratory environment.
LIFEPATH: Life-course Biological Pathways Underlying Social Differences In Healthy Ageing
Funder
National Health and Medical Research Council
Funding Amount
$470,466.00
Summary
Healthy ageing varies across society due to environmental, behavioural and social circumstances that affect peoples’ lives. To improve our ability to change this we will investigate suspected biological mechanisms over the life course. Using repeated blood samples collected during a large prospective study, we will measure a very large number of biological markers and analyse these combined with lifestyle and behavioural information to identify the modifiable predictors of healthy ageing.
Hendra virus (HeV) cause a disease transmitted from bats to horses which in turn infect humans and other horses. There are no drugs or vaccines for HeV. Since humans are infected by inhalation, a vaccine that can generate antibody in the lung and protect from infection will be ideal. We have found that a natural sugar called mannan used with virus proteins and administered via the nostrils to generate such responses. In this project we will prepare this vaccine and use it in a mouse model of HeV ....Hendra virus (HeV) cause a disease transmitted from bats to horses which in turn infect humans and other horses. There are no drugs or vaccines for HeV. Since humans are infected by inhalation, a vaccine that can generate antibody in the lung and protect from infection will be ideal. We have found that a natural sugar called mannan used with virus proteins and administered via the nostrils to generate such responses. In this project we will prepare this vaccine and use it in a mouse model of HeV infection to see if it can protect the mice.Read moreRead less
Developing A National Salt Reduction Program For India
Funder
National Health and Medical Research Council
Funding Amount
$935,028.00
Summary
Excess dietary salt is a leading cause of premature strokes and heart attacks around the world. India, the world’s second most populous nation has no coordinated national salt reduction program and lacks key data upon which to formulate a strategy. This research will bring together Australian experts in the field with leading Indian researchers to make the baseline assessments required to formulate and commence population-wide salt reduction efforts in India.
This proposal uses the zebra fish system, which it is uniquely suited to investigate the regulation of disease genes. In all of these diseases preliminary work has already been performed and screening assays have been developed in a previous project (ZF-MODELS). In addition, the project will investigate genetic abnormalities of the eye and visual processing, genetic pathways underlying tissue regeneration and repair, and homologs of human genes related to diabetes and obesity, as well as infecti ....This proposal uses the zebra fish system, which it is uniquely suited to investigate the regulation of disease genes. In all of these diseases preliminary work has already been performed and screening assays have been developed in a previous project (ZF-MODELS). In addition, the project will investigate genetic abnormalities of the eye and visual processing, genetic pathways underlying tissue regeneration and repair, and homologs of human genes related to diabetes and obesity, as well as infectious disease and cancer. The Australian component will perform a systematic characterisation of enhancer elements of potential disease genes. This characterisation will build on the concept of genomic regulatory blocks (GRBs) which contain highly conserved non-coding elements (HCNEs) acting as long-range enhancers of developmental genes (recently discovered by T. Becker in the ZF-MODELS project).Read moreRead less
OptiMalVax: Optimizing A Deployable High Efficacy Malaria Vaccine
Funder
National Health and Medical Research Council
Funding Amount
$494,618.00
Summary
In this proposal, a consortium comprising many of the leading malariologists, vaccine researchers and product developers in Europe, USA, Australia and Africa will collaborate in an exciting programme of antigen discovery science linked to rapid clinical development of new vaccine candidates against malaria.