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We use neurophysiological, clinical, and implementation research designs to develop therapeutic exercise strategies that support neurological function.
Our studies involve non-invasive brain stimulation, electromyography, blood biomarker and genotyping analyses, clinical assessments, and maximal exercise testing.
We strive to bridge the gap between advances in understanding of human physiology and innovation in real-world exercise prescription for people experiencing chronic neurological conditions.
THE QUESTIONS THAT WE ASK
01
How can exercise be tailored to optimize recovery of function in people with various neurological conditions?
02
What characterizes a successful neurological rehabilitation program in the real world?
03
How do the cognitive and motor systems interact to support everyday function after the onset of a neurological condition?
04
How does fatigue impact motor skill learning and response to neurological rehabilitation?
05
How can the physiological effects of a single bout of exercise be leveraged to support memory and associated changes in motor behaviour?
06
What are the experiences of people with neurological conditions in accessing motor rehabilitation services?

HOW WE ANSWER THESE QUESTIONS

Transcranial Magnetic Stimulation (TMS)

Transcranial Direct Current Stimulation (tDCS)

Electromyography
(EMG)

Blood Biomarker Analysis

Genotyping

Maximal
Exercise Testing

Open-Circuit
Spirometry
Techniques Anchor
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