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Arthur R Chaves

Showing results (1-10 of 25) with videos related to

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Scientific Reports|July 23, 2025
Gait instability is a more specific predictor of corticospinal tract function than gait speed in clinically stable multiple sclerosisFurkan Bilek, Arthur R Chaves, Oleksandr Fesenko, et al.
Heliyon|August 22, 2024
Lowered ratio of corticospinal excitation to inhibition predicts greater disability, poorer motor and cognitive function in multiple sclerosisArthur R Chaves, Sara Tremblay, Lara Pilutti, et al.
IBRO Neuroscience Reports|August 14, 2023
Age and asymmetry of corticospinal excitability, but not cardiorespiratory fitness, predict cognitive impairments in multiple sclerosisNicholas J Snow, Josef Landine, Arthur R Chaves, et al.
Brain Sciences|April 3, 2021
Probing the Brain-Body Connection Using Transcranial Magnetic Stimulation (TMS): Validating a Promising Tool to Provide Biomarkers of Neuroplasticity and Central Nervous System FunctionArthur R Chaves, Nicholas J Snow, Lynsey R Alcock, et al.
Neural Plasticity|October 23, 2019
Transcranial Magnetic Stimulation as a Potential Biomarker in Multiple Sclerosis: A Systematic Review with Recommendations for Future ResearchNicholas J Snow, Katie P Wadden, Arthur R Chaves, et al.
Frontiers in Aging Neuroscience|January 30, 2026
Cardiorespiratory fitness does not predict longitudinal changes in manual dexterity, cognition or corticospinal excitability in multiple sclerosisBasel Mohamed, Sarah Duraid, Nick W Bray, et al.
Clinical Neurophysiology : Official Journal of the International Federation of Clinical Neurophysiology|February 17, 2019
Prolonged cortical silent period is related to poor fitness and fatigue, but not tumor necrosis factor, in Multiple SclerosisArthur R Chaves, Liam P Kelly, Craig S Moore, et al.
Frontiers in Neurology|June 26, 2020
Walking Training Enhances Corticospinal Excitability in Progressive Multiple Sclerosis-A Pilot StudyArthur R Chaves, Augustine J Devasahayam, Morten Riemenschneider, et al.
Brain Research|October 11, 2021
Sex-specific disruption in corticospinal excitability and hemispheric (a)symmetry in multiple sclerosisArthur R Chaves, Hannah M Kenny, Nicholas J Snow, et al.
Multiple Sclerosis and Related Disorders|June 27, 2024
Weak grip strength among persons with multiple sclerosis having minimal disability is not related to agility or integrity of the corticospinal tractEvan G MacKenzie, Nicholas J Snow, Arthur R Chaves, et al.
Pageof 3

Showing results (1-10 of 25) with videos related to

Sort By:
Pageof 3
Scientific Reports|July 23, 2025
Gait instability is a more specific predictor of corticospinal tract function than gait speed in clinically stable multiple sclerosisFurkan Bilek, Arthur R Chaves, Oleksandr Fesenko, et al.
Heliyon|August 22, 2024
Lowered ratio of corticospinal excitation to inhibition predicts greater disability, poorer motor and cognitive function in multiple sclerosisArthur R Chaves, Sara Tremblay, Lara Pilutti, et al.
IBRO Neuroscience Reports|August 14, 2023
Age and asymmetry of corticospinal excitability, but not cardiorespiratory fitness, predict cognitive impairments in multiple sclerosisNicholas J Snow, Josef Landine, Arthur R Chaves, et al.
Brain Sciences|April 3, 2021
Probing the Brain-Body Connection Using Transcranial Magnetic Stimulation (TMS): Validating a Promising Tool to Provide Biomarkers of Neuroplasticity and Central Nervous System FunctionArthur R Chaves, Nicholas J Snow, Lynsey R Alcock, et al.
Neural Plasticity|October 23, 2019
Transcranial Magnetic Stimulation as a Potential Biomarker in Multiple Sclerosis: A Systematic Review with Recommendations for Future ResearchNicholas J Snow, Katie P Wadden, Arthur R Chaves, et al.
Frontiers in Aging Neuroscience|January 30, 2026
Cardiorespiratory fitness does not predict longitudinal changes in manual dexterity, cognition or corticospinal excitability in multiple sclerosisBasel Mohamed, Sarah Duraid, Nick W Bray, et al.
Clinical Neurophysiology : Official Journal of the International Federation of Clinical Neurophysiology|February 17, 2019
Prolonged cortical silent period is related to poor fitness and fatigue, but not tumor necrosis factor, in Multiple SclerosisArthur R Chaves, Liam P Kelly, Craig S Moore, et al.
Frontiers in Neurology|June 26, 2020
Walking Training Enhances Corticospinal Excitability in Progressive Multiple Sclerosis-A Pilot StudyArthur R Chaves, Augustine J Devasahayam, Morten Riemenschneider, et al.
Brain Research|October 11, 2021
Sex-specific disruption in corticospinal excitability and hemispheric (a)symmetry in multiple sclerosisArthur R Chaves, Hannah M Kenny, Nicholas J Snow, et al.
Multiple Sclerosis and Related Disorders|June 27, 2024
Weak grip strength among persons with multiple sclerosis having minimal disability is not related to agility or integrity of the corticospinal tractEvan G MacKenzie, Nicholas J Snow, Arthur R Chaves, et al.
Pageof 3