Repetitive Transcranial Magnetic Stimulation Over the Left Posterior Middle Temporal Gyrus Reduces Wrist Velocity During Emblematic Hand Gesture Imitation

Reader, Arran T; Holmes, Nicholas P.

doi:10.1007/s10548-018-0684-1

Cited by 10 publications

(6 citation statements)

References 52 publications

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“…In our study, damage to the pMTG was specifically associated with arm/hand gesture imitation deficits (but not with impaired bucco-facial gesture imitation). This may support the proposal that left posterior temporal regions are also relevant in processing postural components of gestures, i.e., placing the hand relative to other body parts ( Buxbaum et al, 2014 , Reader and Holmes, 2019 ). Correct positioning of the hand/arm in relation to other body parts is crucial in the imitation of limb gestures, whereas it is not relevant for bucco-facial gesture imitation.…”

Section: Discussionsupporting

confidence: 80%

Gesture meaning modulates the neural correlates of effector-specific imitation deficits in left hemisphere stroke

Kleineberg

Schmidt²,

Richter

et al. 2023

NeuroImage: Clinical

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Section: Discussionsupporting

confidence: 80%

Gesture meaning modulates the neural correlates of effector-specific imitation deficits in left hemisphere stroke

Kleineberg

Schmidt²,

Richter

et al. 2023

NeuroImage: Clinical

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“…It is therefore possible that the involvement of aSMG in action language processing reflects a role for these motor-related cognitive mechanisms in action language processing. Relatedly, the role of PTr in action language could be related to processing action goals (Bach et al, 2010;Möttönen et al, 2016;Wurm et al, 2014), while PMv may be matching visuospatial information onto motor representations (Pilgramm et al, 2010), the somatosensory motor cortex may be processing somatosensory properties of objects (Turella et al, 2012;Valchev et al, 2017), pMTG may be involved in processing the meaning of action (Reader & Holmes, 2019) and pre-SMA may be involved in generating motor representations (Ross Cunnington et al, 2005). Empirical investigations are needed to test these hypotheses, which could reveal the neural mechanisms underlying action language processing.…”

Section: Action Language Networkmentioning

confidence: 99%

Neural correlates of manual action language: Comparative review, ALE meta-analysis and ROI meta-analysis

Courson

Tremblay

2020

Neuroscience & Biobehavioral Reviews

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“…Such correspondence between perceived and executed actions has been proposed as the neural substrate of cortical motor simulation [7][8][9][10]. Several theoretical and experimental studies have further expanded the functional role of MNM, and have proposed that the temporary activation of specific motor programs during the observation of an action might be exploited by the observer in order to understand, respond and imitate the observed action [8,[10][11][12][13][14][15][16]. In Calvo-Merino et al's study [17], the authors used fMRI to investigate how motor familiarity effects neural responses during sport action observation in expert dancers.…”

Section: Introductionmentioning

confidence: 99%

Learning new sport actions: Pilot study to investigate the imitative and the verbal instructive teaching methods in motor education

et al. 2020

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The aim of the project was to investigate the effects of two strategies of teaching new sport actions on performance of eight-year-old children: observational-imitative method (OIM) and descriptive-directive method (DDM). The OIM group was provided with a pre-practice instruction in the form of expert modeling observation by an expert athlete. The DDM group received only verbal explanations of few selected static images. Thirty-six children (18 males and 18 females, mean age = 8,8) participated in the experiment. Subjects were randomly assigned to the OIM or DDM groups. Participants were instructed to perform four sport motor sequences never performed before (shoulder stand, soccer action, vortex howler throw, step action). Actions were videotaped and 2D kinematic analysis performed. A 10-point Likert questionnaire was administered to blind sport experts to assess the correctness and accuracy of each action. Results suggest that the OIM is the most effective instruction method when participants have no experience with the sport action to be performed. On the contrary, if the athlete needs to learn specific aspects of an exercise (such as grasping a tool) the best method is the DDM. In fact, detailed information on how to grab the vortex helped children in throwing it. We also found gender differences which might reflect cultural influences in specific sports (e.g. soccer). Finally, repetition of the exercise also improved the DDM group's performance. This has potential applications in sport teaching, suggesting that in the absence of a model performing the action to be imitated, the DDM can be as effective as the OIM if the observer repeats the sport action many times.

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Repetitive Transcranial Magnetic Stimulation Over the Left Posterior Middle Temporal Gyrus Reduces Wrist Velocity During Emblematic Hand Gesture Imitation

Cited by 10 publications

References 52 publications

Gesture meaning modulates the neural correlates of effector-specific imitation deficits in left hemisphere stroke

Gesture meaning modulates the neural correlates of effector-specific imitation deficits in left hemisphere stroke

Neural correlates of manual action language: Comparative review, ALE meta-analysis and ROI meta-analysis

Learning new sport actions: Pilot study to investigate the imitative and the verbal instructive teaching methods in motor education

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