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  • Intracortical motor networks are affected in both the contralateral and ipsilateral hemisphere during single limb cold water immersion.

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    Accepted Manuscript (AM)
    Author(s)
    Delahunty, Eden T
    Bisset, Leanne M
    Kavanagh, Justin J
    Griffith University Author(s)
    Kavanagh, Justin J.
    Delahunty, Eden T.
    Bisset, Leanne M.
    Year published
    2019
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    Abstract
    NEW FINDINGS: What is the central question of this study? How does single limb cold water immersion affect corticomotor function and intracortical circuitry in the motor cortex of each cerebral hemisphere? What is the main finding and its importance? Immersion of a single limb in very cold water caused an increase in corticomotor excitability and intracortical facilitation, and a decrease in intracortical inhibition, in the motor cortex of both hemispheres. These findings provide evidence that intense sensory stimuli induce widespread changes in motor circuitry in the contralateral, as well as the ipsilateral, hemisphere. ...
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    NEW FINDINGS: What is the central question of this study? How does single limb cold water immersion affect corticomotor function and intracortical circuitry in the motor cortex of each cerebral hemisphere? What is the main finding and its importance? Immersion of a single limb in very cold water caused an increase in corticomotor excitability and intracortical facilitation, and a decrease in intracortical inhibition, in the motor cortex of both hemispheres. These findings provide evidence that intense sensory stimuli induce widespread changes in motor circuitry in the contralateral, as well as the ipsilateral, hemisphere. ABSTRACT: Although responses to noxious stimuli have been extensively studied for the contralateral hemisphere, little is known about how the ipsilateral hemisphere may be affected. Therefore, this study examined how exposing a single limb to noxious cold stimuli affects motor output arising from both the contralateral and ipsilateral hemisphere. A total of 17 healthy adults participated in three experiments. Single- and paired-pulse TMS protocols were used to identify how immersing a single upper limb in cold water (4.0 ± 0.5 °C) affects inhibitory and facilitatory circuits in the primary motor cortex (M1) of the contralateral (experiment 1) and ipsilateral (experiment 2) hemisphere. The third experiment used a reaction time task to assess the functional consequences of acute adaptations in the ipsilateral M1. The target muscle in all experiments was the extensor carpi radialis brevis (ECRB). Immersion of a single limb in cold water increased self-perception of pain and temperature, and increased EMG amplitude of the immersed limb. During immersion, motor evoked potentials and intracortical facilitation increased, whereas short interval intracortical inhibition decreased, for both the ipsilateral M1 and contralateral M1. Activity in the ipsilateral hemisphere to the limb immersed in cold water also slowed reaction time for the non-immersed limb. Our findings suggest that altered motor responses from single limb cold water immersion are not restricted to a single hemisphere. Instead, widespread activation of somatosensory systems influences inhibitory and facilitatory circuits in the primary motor cortex of each hemisphere. This article is protected by copyright. All rights reserved.
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    Journal Title
    Experimental Physiology
    DOI
    https://doi.org/10.1113/EP087745
    Copyright Statement
    © 2019 The Physiological Society. This is the peer reviewed version of the following article: Intracortical motor networks are affected in both the contralateral and ipsilateral hemisphere during single limb cold water immersion, Experimental Physiology, AOV, which has been published in final form at https://doi.org/10.1113/EP087745. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Self-Archiving (http://olabout.wiley.com/WileyCDA/Section/id-828039.html)
    Note
    This publication has been entered into Griffith Research Online as an Advanced Online Version.
    Subject
    Zoology
    Sports science and exercise
    Medical physiology
    Publication URI
    http://hdl.handle.net/10072/386263
    Collection
    • Journal articles

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