A single bout of high-intensity interval training improves motor skill retention in individuals with stroke

Jean-Francois Nepveu; Alexander Thiel; Ada Tang; Joyce Fung; Jesper Lundbye-Jensen; Lara A Boyd; Marc Roig

doi:10.1177/1545968317718269

A single bout of high-intensity interval training improves motor skill retention in individuals with stroke

Jean-Francois Nepveu, Alexander Thiel, Ada Tang, Joyce Fung, Jesper Lundbye-Jensen, Lara A Boyd, Marc Roig

40 Citations (Scopus)

Abstract

BACKGROUND: One bout of high-intensity cardiovascular exercise performed immediately after practicing a motor skill promotes changes in the neuroplasticity of the motor cortex and facilitates motor learning in nondisabled individuals.

OBJECTIVE: To determine if a bout of exercise performed at high intensity is sufficient to induce neuroplastic changes and improve motor skill retention in patients with chronic stroke.

METHODS: Twenty-two patients with different levels of motor impairment were recruited. On the first session, the effects of a maximal graded exercise test on corticospinal and intracortical excitability were assessed from the affected and unaffected primary motor cortex representational area of a hand muscle with transcranial magnetic stimulation. On the second session, participants were randomly assigned to an exercise or a nonexercise control group. Immediately after practicing a motor task, the exercise group performed 15 minutes of high-intensity interval training while the control group rested. Twenty-four hours after motor practice all participants completed a test of the motor task to assess skill retention.

RESULTS: The graded exercise test reduced interhemispheric imbalances in GABAA-mediated short-interval intracortical inhibition but changes in other markers of excitability were not statistically significant. The group that performed high-intensity interval training showed a better retention of the motor skill.

CONCLUSIONS: The performance of a maximal graded exercise test triggers only modest neuroplastic changes in patients with chronic stroke. However, a single bout of high-intensity interval training performed immediately after motor practice improves skill retention, which could potentially accelerate motor recovery in these individuals.

Original language	English
Journal	Neurorehabilitation and Neural Repair
Volume	31
Issue number	8
Pages (from-to)	726-735
Number of pages	10
ISSN	1545-9683
DOIs	https://doi.org/10.1177/1545968317718269
Publication status	Published - 1 Aug 2017

Keywords

Stroke
Cardiovascular exercise
Motor skill learning
Rehabilitation
Memory
Neuronal plasticity
Transcranial megnetic stimulation

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1545968317718269Final published version, 273 KB

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Cite this

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title = "A single bout of high-intensity interval training improves motor skill retention in individuals with stroke",

abstract = "BACKGROUND: One bout of high-intensity cardiovascular exercise performed immediately after practicing a motor skill promotes changes in the neuroplasticity of the motor cortex and facilitates motor learning in nondisabled individuals.OBJECTIVE: To determine if a bout of exercise performed at high intensity is sufficient to induce neuroplastic changes and improve motor skill retention in patients with chronic stroke.METHODS: Twenty-two patients with different levels of motor impairment were recruited. On the first session, the effects of a maximal graded exercise test on corticospinal and intracortical excitability were assessed from the affected and unaffected primary motor cortex representational area of a hand muscle with transcranial magnetic stimulation. On the second session, participants were randomly assigned to an exercise or a nonexercise control group. Immediately after practicing a motor task, the exercise group performed 15 minutes of high-intensity interval training while the control group rested. Twenty-four hours after motor practice all participants completed a test of the motor task to assess skill retention.RESULTS: The graded exercise test reduced interhemispheric imbalances in GABAA-mediated short-interval intracortical inhibition but changes in other markers of excitability were not statistically significant. The group that performed high-intensity interval training showed a better retention of the motor skill.CONCLUSIONS: The performance of a maximal graded exercise test triggers only modest neuroplastic changes in patients with chronic stroke. However, a single bout of high-intensity interval training performed immediately after motor practice improves skill retention, which could potentially accelerate motor recovery in these individuals.",

keywords = "Stroke, Cardiovascular exercise, Motor skill learning, Rehabilitation, Memory, Neuronal plasticity, Transcranial megnetic stimulation",

author = "Jean-Francois Nepveu and Alexander Thiel and Ada Tang and Joyce Fung and Jesper Lundbye-Jensen and Boyd, {Lara A} and Marc Roig",

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T1 - A single bout of high-intensity interval training improves motor skill retention in individuals with stroke

AU - Nepveu, Jean-Francois

AU - Thiel, Alexander

AU - Tang, Ada

AU - Fung, Joyce

AU - Lundbye-Jensen, Jesper

AU - Boyd, Lara A

AU - Roig, Marc

N1 - CURIS 2017 NEXS 185

PY - 2017/8/1

Y1 - 2017/8/1

N2 - BACKGROUND: One bout of high-intensity cardiovascular exercise performed immediately after practicing a motor skill promotes changes in the neuroplasticity of the motor cortex and facilitates motor learning in nondisabled individuals.OBJECTIVE: To determine if a bout of exercise performed at high intensity is sufficient to induce neuroplastic changes and improve motor skill retention in patients with chronic stroke.METHODS: Twenty-two patients with different levels of motor impairment were recruited. On the first session, the effects of a maximal graded exercise test on corticospinal and intracortical excitability were assessed from the affected and unaffected primary motor cortex representational area of a hand muscle with transcranial magnetic stimulation. On the second session, participants were randomly assigned to an exercise or a nonexercise control group. Immediately after practicing a motor task, the exercise group performed 15 minutes of high-intensity interval training while the control group rested. Twenty-four hours after motor practice all participants completed a test of the motor task to assess skill retention.RESULTS: The graded exercise test reduced interhemispheric imbalances in GABAA-mediated short-interval intracortical inhibition but changes in other markers of excitability were not statistically significant. The group that performed high-intensity interval training showed a better retention of the motor skill.CONCLUSIONS: The performance of a maximal graded exercise test triggers only modest neuroplastic changes in patients with chronic stroke. However, a single bout of high-intensity interval training performed immediately after motor practice improves skill retention, which could potentially accelerate motor recovery in these individuals.

AB - BACKGROUND: One bout of high-intensity cardiovascular exercise performed immediately after practicing a motor skill promotes changes in the neuroplasticity of the motor cortex and facilitates motor learning in nondisabled individuals.OBJECTIVE: To determine if a bout of exercise performed at high intensity is sufficient to induce neuroplastic changes and improve motor skill retention in patients with chronic stroke.METHODS: Twenty-two patients with different levels of motor impairment were recruited. On the first session, the effects of a maximal graded exercise test on corticospinal and intracortical excitability were assessed from the affected and unaffected primary motor cortex representational area of a hand muscle with transcranial magnetic stimulation. On the second session, participants were randomly assigned to an exercise or a nonexercise control group. Immediately after practicing a motor task, the exercise group performed 15 minutes of high-intensity interval training while the control group rested. Twenty-four hours after motor practice all participants completed a test of the motor task to assess skill retention.RESULTS: The graded exercise test reduced interhemispheric imbalances in GABAA-mediated short-interval intracortical inhibition but changes in other markers of excitability were not statistically significant. The group that performed high-intensity interval training showed a better retention of the motor skill.CONCLUSIONS: The performance of a maximal graded exercise test triggers only modest neuroplastic changes in patients with chronic stroke. However, a single bout of high-intensity interval training performed immediately after motor practice improves skill retention, which could potentially accelerate motor recovery in these individuals.

KW - Stroke

KW - Cardiovascular exercise

KW - Motor skill learning

KW - Rehabilitation

KW - Memory

KW - Neuronal plasticity

KW - Transcranial megnetic stimulation

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JO - Neurorehabilitation and Neural Repair

JF - Neurorehabilitation and Neural Repair

IS - 8

ER -

A single bout of high-intensity interval training improves motor skill retention in individuals with stroke

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