Delivering Advanced Electrode Materials To The Clinic
Funder
National Health and Medical Research Council
Funding Amount
$702,604.00
Summary
This research will develop improved electrodes for interfacing neural tissue by combining the expertise of materials scientists and electrophysiologists with medical bionics researchers. This work is expected to deliver improved bionic devices to the clinic in order to treat a variety of disorders from blindness to the control of motor tremor in Parkinson's disease.
Neuro-feedback For Improved Efficacy Of Retinal Prostheses
Funder
National Health and Medical Research Council
Funding Amount
$653,655.00
Summary
Bionic eyes offer the possibility to return sight to the blind. Existing retinal implants are effective at delivering basic visual percepts, namely brief spots of light. Our team is now working on building the second generation of bionic eyes that include the ability to both stimulate the visual system (the retina) and record its response. By recording the evoked responses, we can adjust and optimize the stimulation to restore a persistent high spatial resolution sense of vision to the blind.
Improving Spatial Resolution In Retinal Prostheses Through Novel Electrical Stimulation Techniques
Funder
National Health and Medical Research Council
Funding Amount
$371,390.00
Summary
This project aims to improve the resolution of bionic eyes and thus improve quality of living for the blind through novel electrical stimulation methods. Present commercial implants are inadequate in the amount of resolution they provide to conduct complex tasks such as independent navigation, reading and facial recognition. The proposed experiments using the new stimulation methods will inform a new generation of devices capable of high resolution without increasing the number of physical elect ....This project aims to improve the resolution of bionic eyes and thus improve quality of living for the blind through novel electrical stimulation methods. Present commercial implants are inadequate in the amount of resolution they provide to conduct complex tasks such as independent navigation, reading and facial recognition. The proposed experiments using the new stimulation methods will inform a new generation of devices capable of high resolution without increasing the number of physical electrodes.Read moreRead less