Electrophysiological And Neuroanatomical Determination Of Patients With Amyotrophic Lateral Sclerosis With The C9ORF72 Mutation
Funder
National Health and Medical Research Council
Funding Amount
$77,490.00
Summary
Motor Neuron Disease (MND) is a rapidly progressive neurological illness. A new genetic mutation C9ORF72 has recently been identified as a cause of MND. Little is known about the neurophysiological properties in these patients. We wish to better characterise the nerve function in these patients, using a new technique; 'Threshold tracking transcranial magnetic stimulation' and other existing neurophysiological techniques.
A Novel Sensory Nerve Stimulator To Improve Neuropathy In Patients With Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$407,924.00
Summary
We have developed a painless, self-applied, cheap, battery powered electrical stimulation treatment that improves sensory nerve function in some people with diabetic peripheral neuropathy. We have tested this technique in laboratory animals and in people with diabetes and have shown it is effective in some. We now propose to test this technique in a large sample of people similar to the participants in the successful group of our pilot study - 55-65 year old people with diabetes of shorter durat ....We have developed a painless, self-applied, cheap, battery powered electrical stimulation treatment that improves sensory nerve function in some people with diabetic peripheral neuropathy. We have tested this technique in laboratory animals and in people with diabetes and have shown it is effective in some. We now propose to test this technique in a large sample of people similar to the participants in the successful group of our pilot study - 55-65 year old people with diabetes of shorter duration. In addition, older people up to 75 years of age, with up to 10 years duration of diabetes will be included separately. If successful, the electrical stimulation could improve sensation leading to fewer ulcerations and amputations. Much suffering and expense would be avoided. - The magnitude of reduction in suffering and expense can be judged from the fact that people with diabetes have 15 times the risk of amputation as do people without diabetes. In Australia half of non-traumatic amputations are done to people with diabetes. Foot ulcers precede amputations in most cases, and in themselves cause much suffering and expense. Australia needs to act on this now because, if current trends continue, the number of people with diabetes will increase as the population ages. -The number of people aged over 65 will increase from around 2.3 million at present to over 6 million in the next half century. The increase in those over 85 will be even more marked with numbers increasing four fold to over one million people. Diabetes affects approximately 23% of people aged 75 or older.Read moreRead less
The Distribution And Spread Of Motor System Dysfunction In Early Motor Neurone Disease.
Funder
National Health and Medical Research Council
Funding Amount
$107,287.00
Summary
At present, motor neurone disease remains an incurable, fatal neurodegenerative condition with few disease-modifying treatments. There is ongoing uncertainty around the mechanisms of onset and disease propagation. This research aims to clarify the onset and pathophysiological mechanisms of motor neurone disease using novel neurophysiological and neuroimaging techniques, the results of which will contribute to the search for early diagnositc markers and new treatments.
Non-invasive Electrical Nerve Stimulation To Improve Healing Of Chronic Venous Leg Ulcers
Funder
National Health and Medical Research Council
Funding Amount
$206,210.00
Summary
Chronic venous leg ulcers are common in the elderly. They often last for many months or years, causing much suffering and expense (currently around $600,000,000 per year in Australia). As more and more Australians live into advanced age, more and more people will be troubled by leg ulcers, particularly as the likelihood of having a leg ulcer increases markedly in the very old. We have developed a painless, cheap treatment that improves wound healing. The treatment consists of electrical stimulat ....Chronic venous leg ulcers are common in the elderly. They often last for many months or years, causing much suffering and expense (currently around $600,000,000 per year in Australia). As more and more Australians live into advanced age, more and more people will be troubled by leg ulcers, particularly as the likelihood of having a leg ulcer increases markedly in the very old. We have developed a painless, cheap treatment that improves wound healing. The treatment consists of electrical stimulation of nerves that supply the wound. Low frequency current is passed through the skin from small battery powered stimulators. We have tested this technique in laboratory animals and in just a few older people with diabetes and have shown it is remarkably effective. We now plan to test this technique properly in a large study in older adults. If successful, the electrical stimulation could result in healing of wounds in relatively few weeks that otherwise would not heal for many months. Much suffering and expense would be avoided. As people age, nerve function deteriotes. Another part of the project will explore whether electrical nerve stimulation can improve damaged nerves themselves. This will provide interesting scientific insight about nerve repair and could lead to treatments for peripheral neuropathy that occurs in diabetes and other medical conditions. Australia needs to act on this now because the number of people aged over 65 will increase from around 2.3 million at present to over 6 million in the next half century. The increase in those over 85 will be even more marked with numbers increasing four fold to over one million people. Many of these people will experience severe impairment of their quality of life from leg ulcers that could be avoided, or at least minimized if a successful treatment is developed and made available to them. Similarly, much unnecessary expense could be avoided.Read moreRead less
A Wireless Electric Nerve-guide For Peripheral Nerve Repair
Funder
National Health and Medical Research Council
Funding Amount
$805,064.00
Summary
We aim to deliver a radical new precision intervention for peripheral nerve repair to improve the lives of people with peripheral nerve damage. Drawing from our recently awarded work on 'electric neural tissue engineering', we will pre-clinically test our invention of a unique clinically-amenable electric nerve-guide (e-nerve-guide), designed to act as a protective nerve conduit and wirelessly electrically-stimulate damaged nerves for their regeneration and restoration of function.
Investigating Caloric Vestibular Stimulation As A Novel Therapeutic Intervention For Chronic Pain, Mania And Depression.
Funder
National Health and Medical Research Council
Funding Amount
$340,963.00
Summary
Chronic pain, mania and depression are common health problems worldwide and represent an enormous burden of illness. Current treatments may be costly, invasive and have serious side-effects. In the proposed project, demonstration of therapeutic benefit with a novel, simple method of brain stimulation without such limitations could change how these disorders are managed. Moreover, the findings would be of substantial significance in developing countries where treatments are often non-existent.
Motor Neurone Disease - Pathophysiological Insights Into The Site Of Origin And Patterns Of Neurodegeneration.
Funder
National Health and Medical Research Council
Funding Amount
$309,361.00
Summary
Motor neurone disease (MND) kills one Australian per day and is characterised by progressive loss of the corticospinal tract, that controls all voluntary movements. The present project will investigate where MND begins and document how the loss of nerves within the brain, spinal cord and peripheral nerves evolves. In addition to providing information about prognosis, new quantifiable measures will be developed to objectively monitor patients in future treatment and prevention trials.
Axonal Regeneration And Degeneration: Cellular And Molecular Mechanisms
Funder
National Health and Medical Research Council
Funding Amount
$622,655.00
Summary
Understanding how to repair of nerve damage following a traumatic injury, a vascular accident, or a degenerative condition, is essential to develop novel effective treatments. We have identified, in a simple genetic model system, the molecular mechanisms that allow a transected nerve to be repaired by reattachment of its two separated fragments. This 'axonal fusion' process is a highly promising innovative approach that can be exploited to restore the original neuronal circuit.