Open access
Date
2015-07-28Type
- Journal Article
ETH Bibliography
yes
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Abstract
Involuntary movements share much of the motor control circuitry used for voluntary movement, yet the two can be easily distinguished. The Kohnstamm phenomenon (where a sustained, hard push produces subsequent involuntary arm raising) is a useful experimental model for exploring differences between voluntary and involuntary movement. Both central and peripheral accounts have been proposed, but little is known regarding how the putative Kohnstamm generator responds to afferent input. We addressed this by obstructing the involuntary upward movement of the arm. Obstruction prevented the rising EMG pattern that characterizes the Kohnstamm. Importantly, once the obstruction was removed, the EMG signal resumed its former increase, suggesting a generator that persists despite peripheral input. When only one arm was obstructed during bilateral involuntary movements, only the EMG signal from the obstructed arm showed the effect. Upon release of the obstacle, the obstructed arm reached the same position and EMG level as the unobstructed arm. Comparison to matched voluntary movements revealed a preserved stretch response when a Kohnstamm movement first contacts an obstacle, and also an overestimation of the perceived contact force. Our findings support a hybrid central and peripheral account of the Kohnstamm phenomenon. The strange subjective experience of this involuntary movement is consistent with the view that movement awareness depends strongly on efference copies, but that the Kohnstamm generator does not produces efference copies. Show more
Permanent link
https://doi.org/10.3929/ethz-b-000103493Publication status
publishedExternal links
Journal / series
Frontiers in Behavioral NeuroscienceVolume
Pages / Article No.
Publisher
Frontiers MediaSubject
Involuntary contraction; Motor control; Efference copy; Involuntary movement; Sensory feedbackOrganisational unit
03454 - Martin, Kevan A.C.
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ETH Bibliography
yes
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