Diabetic neuropathy causes severe disability, with pain, loss of sensation and weakness. The current project will assess the utility of a new testing method, known as nerve excitability assessment, as a method of detecting early changes in nerve function in diabetic patients. If this technique proves useful in detecting early nerve damage, it will assist in the development of therapeutic and preventative treatments for neuropathy in diabetic patients.
Inhibitory Signalling Switches Define The Machinery Of Synaptic Vesicle Endocytosis
Funder
National Health and Medical Research Council
Funding Amount
$387,489.00
Summary
The nerve cells in our brains are in constant communication to sustain life. Communication involves one nerve cell responding to electrical stimulation by releasing chemical messengers, from vesicles, onto the next cell. Our research focuses on the mechanism of recycling of vesicles. Targeting this mechanism is a way to gain fundamental knowledge of how to intervene medically when communication fails, or when communication needs to be dampened, in neurological diseases.