Improving Treatment Strategies For Chronic Alphaviral Arthritic Diseases
Funder
National Health and Medical Research Council
Funding Amount
$643,624.00
Summary
Chikungunya virus and Ross River virus cause epidemics of acute and chronic arthritic disease in humans, which is often poorly managed with current treatments. This grant seeks to understand the mechanisms that give rise to disease in order to identify improved treatment strategies. Both the persistence of viral replication in joint tissues and unnecessary inflammatory responses appear to be important factors driving chronic disease.
Novel Insights Into The Mechanisms Of How Chikungunya Virus Cause Disease In Humans
Funder
National Health and Medical Research Council
Funding Amount
$554,808.00
Summary
Many of the most dangerous and easily transmitted infectious agents are viruses. The emergence of chikungunya virus globally and the recognition of this pathogen in the aetiology of chronic diseases show the need for a better understanding of how the virus cause disease. The expected outcomes are a better understanding of human alphaviral diseases, with a view to improving prevention and treatment strategies to reduce the disease burden of CHIKV and related viruses.
Dissecting The Great Ophthalmic Masquerade: The Global Giant Cell Arteritis Genomics Consortium.
Funder
National Health and Medical Research Council
Funding Amount
$583,269.00
Summary
Giant cell arteritis (GCA) is the most common form of vasculitis in people over 50 years of age. If untreated it can cause catastrophic complications including blindness, though this can be prevented if treated early. Although there is clear evidence for a role of genetic factors in GCA, these have been little studied. We have established an Australian-led International consortium, with clinical, basic science and statistical expertise to thoroughly investigate this devastating disease.
Understanding and regulating autoimmune disease through the nuclear factor kappa-light-chain-enhancer of activated B cells (NF-kappaB) family transcription factor, v-rel reticuloendotheliosis viral oncogene homolog B (RelB). This program is well-aligned with the national research priority: Promoting and Maintaining Good Health. The disabling conditions rheumatoid arthritis and type 1 diabetes affect over 1% of Australia's population. They are incurable, so disability and the need for treatment p ....Understanding and regulating autoimmune disease through the nuclear factor kappa-light-chain-enhancer of activated B cells (NF-kappaB) family transcription factor, v-rel reticuloendotheliosis viral oncogene homolog B (RelB). This program is well-aligned with the national research priority: Promoting and Maintaining Good Health. The disabling conditions rheumatoid arthritis and type 1 diabetes affect over 1% of Australia's population. They are incurable, so disability and the need for treatment persist into old age and life expectancy is reduced. The program focuses on more effective and safer treatment, and future disease prevention, with immune therapy. This will have social and economic benefits to Australia. The research will advance Australia's intellectual leadership in Immunology, providing research training and career opportunities, and will lead to strong collaborations between basic scientists, clinicians and industry.Read moreRead less
Patient-specific biomechanical modelling for improved treatment of spinal deformity. Spinal deformities negatively affect social acceptance, physical and mental wellbeing in children and adolescents. The direct costs of spinal deformity surgery are approximately $30 million per year in Australia, yet poor treatment outcomes due to post-operative complications incur a much higher cost as patients with persistent pain and disability face a lifetime of dependency and reduced ability to work. The pa ....Patient-specific biomechanical modelling for improved treatment of spinal deformity. Spinal deformities negatively affect social acceptance, physical and mental wellbeing in children and adolescents. The direct costs of spinal deformity surgery are approximately $30 million per year in Australia, yet poor treatment outcomes due to post-operative complications incur a much higher cost as patients with persistent pain and disability face a lifetime of dependency and reduced ability to work. The patient-specific biomechanical modelling techniques developed in this project will reduce complications and improve correction for Australian children who undergo spinal deformity surgery. Better treatment outcomes will ensure quality of life, health and productivity for spinal deformity patients throughout their entire lives.Read moreRead less
The virtual human knee. This project aims to investigate the Virtual Human Knee (VHK) which provides a baseline knowledge about knee mechanics in healthy individuals and a tool for studying knee mechanics in silico. The new knowledge can be used for identifying individuals most at risk for injury, developing solutions for preventing injury and for assessing knee reconstruction and implantation methods. As such, VHK will mitigate the burden of knee injury to Australia and worldwide by progressing ....The virtual human knee. This project aims to investigate the Virtual Human Knee (VHK) which provides a baseline knowledge about knee mechanics in healthy individuals and a tool for studying knee mechanics in silico. The new knowledge can be used for identifying individuals most at risk for injury, developing solutions for preventing injury and for assessing knee reconstruction and implantation methods. As such, VHK will mitigate the burden of knee injury to Australia and worldwide by progressing disciplines including anatomy, bio-mechanics, sport science, rehabilitation, surgery and medical devices.Read moreRead less
Inter-fragmentary movement in callus formation in the early phase of fracture healing. Computational models of the early phase of bone fracture healing can provide the means to characterise the biochemical factors that control this process, and subsequently influence successful healing outcomes, with or without surgical intervention. This unique approach, incorporating soft tissue and fixation device contributions to fracture healing, will ultimately provide a sound basis for clinical decision-m ....Inter-fragmentary movement in callus formation in the early phase of fracture healing. Computational models of the early phase of bone fracture healing can provide the means to characterise the biochemical factors that control this process, and subsequently influence successful healing outcomes, with or without surgical intervention. This unique approach, incorporating soft tissue and fixation device contributions to fracture healing, will ultimately provide a sound basis for clinical decision-making, implant design and future experimental studies. Facilitating treatment optimisation, the outcomes of this project will create opportunities to reduce healthcare costs, physical impairment, and productivity losses for the 150,000 Australian patients hospitalised annually with fractures.Read moreRead less
Biomechanics of the human spine measured using magnetic resonance imaging. Statistics show that 80% of the population suffer back pain at some time. However, because the spine is very complex our understanding of its mechanics and the causes of back pain are still limited. This project will investigate the anatomy and activity of the spinal muscles and the behaviour of the intervertebral disc in living subjects using innovative Magnetic Resonance Imaging techniques. Significant outcomes will be ....Biomechanics of the human spine measured using magnetic resonance imaging. Statistics show that 80% of the population suffer back pain at some time. However, because the spine is very complex our understanding of its mechanics and the causes of back pain are still limited. This project will investigate the anatomy and activity of the spinal muscles and the behaviour of the intervertebral disc in living subjects using innovative Magnetic Resonance Imaging techniques. Significant outcomes will be new definitive descriptions of the detailed anatomy of the spine and its mechanisms. This will enhance the accuracy and detail of models under development for predicting spinal function following disease, injury or surgical procedures.Read moreRead less
Bilayered and growth factor-loaded composite scaffolds for the guided bi-differentiation of bone marrow stem cells. The project will regenerate bone-cartilage (osteochondral) tissues using scaffolds, growth factors, and stem cells in order to repair osteochondral defects. The project will improve the quality of life for ~1.4 million Australians suffering from joint pain and disability due to damage or disease of cartilage and subchondral bone. The project will promote Australia research strength ....Bilayered and growth factor-loaded composite scaffolds for the guided bi-differentiation of bone marrow stem cells. The project will regenerate bone-cartilage (osteochondral) tissues using scaffolds, growth factors, and stem cells in order to repair osteochondral defects. The project will improve the quality of life for ~1.4 million Australians suffering from joint pain and disability due to damage or disease of cartilage and subchondral bone. The project will promote Australia research strength in biomaterials, tissue engineering, and drug delivery. The project will also create research opportunities for PhD students, who will be equipped with interdisciplinary skills.Read moreRead less
The Role Of Innate Inflammatory Responses In Viral Arthritis
Funder
National Health and Medical Research Council
Funding Amount
$782,514.00
Summary
Viruses are known to cause arthritis (HIV, hepatitis viruses, mosquito borne viruses). Symptoms of viral arthritis include joint pain, stiffness, and swelling. The mechanism of disease is poorly understood. We have developed a novel animal model of disease and human cell culture models by which to study disease caused by viral infections. This models provide an excellent opportunity to explore the mechanisms of rheumatic disease in a functioning animal and to explore new treatment regimes.