Investigation Of Childhood Onset Distal Myopathy Myosin Variants
Funder
National Health and Medical Research Council
Funding Amount
$235,500.00
Summary
This project aims to continue the research of this laboratory into the distal myopathies, a group of largely enigmatic genetic disorders, which most severely affect selected distal limb muscles, in other words mostly hand and foot muscles. The project has two parts. The first part aims to determine what causes the childhood onset distal myopathy which we first identified in a West Australian family. We localised the disease gene in this family to chromosome 14 in the first linkage of a distal my ....This project aims to continue the research of this laboratory into the distal myopathies, a group of largely enigmatic genetic disorders, which most severely affect selected distal limb muscles, in other words mostly hand and foot muscles. The project has two parts. The first part aims to determine what causes the childhood onset distal myopathy which we first identified in a West Australian family. We localised the disease gene in this family to chromosome 14 in the first linkage of a distal myopathy and researching this family and similar families from Europe we may have identified the gene. This project aims to prove that the candidate disease gene is the disease gene. The second part of the project aims to investigate another unknown distal myopathy in another Australian family, to try to localise and identify this disease gene.Read moreRead less
Predicting Fracture Outcomes From Clinical Registry Data Using Artificial Intelligence Supplemented Models For Evidence-informed Treatment (PRAISE) Study
Funder
National Health and Medical Research Council
Funding Amount
$636,217.00
Summary
This project will establish the role of artificial intelligence (AI) techniques to improve the prediction of clinical and longer-term patient reported outcomes following wrist fracture. Prediction models based on existing, routinely collected registry data with will be compared with models based on registry data enhanced by AI analysis of X-ray images, radiology reports and surgical reports. The AI analysis will reason on both image and text data, better replicating how humans learn.
CROSSFIRE: Combined Randomised And Observational Study Of Surgery For Fractures In The Distal Radius In The Elderly
Funder
National Health and Medical Research Council
Funding Amount
$551,077.00
Summary
Fractures (breaks) near the wrist are the most common fractures treated. Treatment previously consisted of straightening and plaster casting in the emergency department, but standard treatment now includes admission to hospital and surgery to apply a plate and screws to the bone. The best evidence we have (which is limited) is that surgical plating does not provide important benefits over plastering. We aim to perform a multicentre trial comparing plating to plaster for these common fractures.
Understanding The Cause Of Muscle Weakness In Nemaline Myopathy (NM) – Moving Towards The Development Of Targeted Treatments
Funder
National Health and Medical Research Council
Funding Amount
$408,768.00
Summary
Congenital myopathy patients have unremitting, life-long muscle weakness that severely affects their quality of life and ability to perform normal daily activities. Currently no effective therapies exist for these conditions, largely due to our limited understanding of the mechanisms leading to muscle weakness. This ECF aims to determine the cause of weakness and test two therapies which have shown promise for other conditions and can be translated into clinical use for myopathies if effective.
PYROXD1 - A Novel Myopathy Disease Gene Identifies A Redox Pathway Essential For Life
Funder
National Health and Medical Research Council
Funding Amount
$1,247,992.00
Summary
An Australian family with a rare myopathy has led to the discovery of a new gene called PYROXD1; a gene that all cells need to survive. PYROXD1 plays a critical role in protecting cells from oxidative stress. We are using patient samples and mouse models to find out what PYROXD1 does that is vital for cell and animal life. We will test whether redox therapies developed for neurodegenerative disorders might help patients with rare neuromuscular disorders, for whom there are no treatment options.
The Role Of Myo18b In Myopathies And Sarcomere Assembly
Funder
National Health and Medical Research Council
Funding Amount
$860,776.00
Summary
Muscle force is provided by a specific structure within the muscle cell termed the sarcomere. Sarcomeres are the engine-room of muscle cells, that act as complex cellular machines to controls muscle contraction. Many muscle degenerative disorders are caused by defects within the sarcomeres, but how this occurs is not well understood. This grant examines how one such muscle waiting disease, or myopathy, results from mutations in a gene encoding a component of the sarcomere called Myo18b.