|Intensity matters: high-intensity interval exercise enhances motor cortex plasticity more than moderate exercise|
SC Andrews, D Curtin, Z Hawi, J Wongtrakun, JC Stout, JP Coxon
Cerebral Cortex 30 (1), 101-112, 2020
|Motor cortex plasticity response to acute cardiorespiratory exercise and intermittent theta-burst stimulation is attenuated in premanifest and early Huntington’s disease|
SC Andrews, D Curtin, JP Coxon, JC Stout
Scientific Reports 12 (1), 1104, 2022
|D2 receptor blockade eliminates exercise-induced changes in cortical inhibition and excitation|
D Curtin, EM Taylor, MA Bellgrove, TTJ Chong, JP Coxon
Brain Stimulation 16 (3), 727-733, 2023
|A single bout of moderate-intensity aerobic exercise improves motor learning in premanifest and early Huntington’s disease|
SC Andrews, L Kämpf, D Curtin, M Hinder, N Wenderoth, JC Stout, ...
Frontiers in Psychology 14, 1089333, 2023
|Exercise in Parkinson’s disease|
E Taylor, D Curtin, JJ Hendrikse, CJ Cadwallader, JC Stout, TTJ Chong, ...
Exercise to prevent and manage chronic disease across the lifespan, 403-412, 2022
|What's off‐key in the brain of musicians with focal task‐specific dystonia?|
CJ Cadwallader, D Curtin, EM Taylor, JP Coxon
The Journal of Physiology 596 (12), 2277, 2018
|Ageing attenuates exercise‐enhanced motor cortical plasticity|
D Curtin, CJ Cadwallader, EM Taylor, SC Andrews, JC Stout, ...
The Journal of Physiology, 2023
|High-intensity acute exercise impacts motor learning in healthy older adults|
J Coxon, E Taylor, C Cadwallader, D Curtin, T Chong, J Hendrikse
|The effect of dopamine D2 receptor blockade on human motor skill learning|
EM Taylor, D Curtin, TTJ Chong, MA Bellgrove, JP Coxon
bioRxiv, 2023.09. 01.556003, 2023
|Exercise and cognition in aging|
CJ Cadwallader, E Taylor, TTJ Chong, D Curtin, JJ Hendrikse, JC Stout, ...
Exercise to Prevent and Manage Chronic Disease Across the Lifespan, 437-450, 2022