Multimodal Electrically Conducting Bionic Implant For Long-distance Oriented Axonal Regeneration
Funder
National Health and Medical Research Council
Funding Amount
$318,768.00
Summary
Neurotrauma, defined as an injury to the central nervous system, is a debilitating medical condition affecting over 3 million people annually worldwide. Loss of function following injury is largely due to the limited potential of nerve cells to regenerate. I will develop a bionic platform that conducts electrical signals and delivers growth promoting proteins thereby enhancing the directed regeneration of nerve cells necessary to bridge the gap caused by the injury and restore organ function.
Each year more than one million people in the US alone suffer serious nerve injury significantly impairing quality of life and costing more than US$7 billion. This research will develop nerve conduits based on polymers and the natural constituents of nerve to provide an alternative to the current practice of nerve grafting. It is envisaged that this conduit will provide an effective platform for nerve repair and will expedite the development of regenerative platforms for other neural tissues.