Control Of Prosthetic Limbs From Decoded Brain Signals
Funder
National Health and Medical Research Council
Funding Amount
$895,832.00
Summary
This research will restore mobility to patients who suffer from paralysis. We aim to create a device, known as a brain-machine interface, which is an artificial communication path from the brain that bypasses an injury, such as a damaged spinal cord or stroke. The interface will decode a user’s intent and act upon it. Decoders will use physiological principals and state-of-the-art machine learning methods. We will test a user’s ability to control an artificial limb using decoded brain activity.
Roles Of Peripherally Derived BDNF In Regeneration Of Spinal Cord And The Mechanisms
Funder
National Health and Medical Research Council
Funding Amount
$472,770.00
Summary
Injury to the brain and spinal cord often leads to permanent disability due to lack of regeneration. The mechanism why central nerve does not regenerate is not known. Neurotrophic factors are powerful molecules which can overcome effects of inhibitory factors on regeneration. This project aims to investigate how neurotrophic factors override the effects of inhibitory factors and how to improve the regeneration by increasing the production of neurotrophic factors within nerves. Successful complet ....Injury to the brain and spinal cord often leads to permanent disability due to lack of regeneration. The mechanism why central nerve does not regenerate is not known. Neurotrophic factors are powerful molecules which can overcome effects of inhibitory factors on regeneration. This project aims to investigate how neurotrophic factors override the effects of inhibitory factors and how to improve the regeneration by increasing the production of neurotrophic factors within nerves. Successful completion of this project will help understanding the mechanism of how neurotrophic factors work on regeneration and developing the effective way to improve regeneration of the injured spinal cord.Read moreRead less