A simulation study to examine the use of cross-correlation as an estimate of surface EMG cross talk

doi:10.1152/japplphysiol.00698.2002

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J Appl Physiol 94: 1324-1334, 2003. First published December 6, 2002; doi:10.1152/japplphysiol.00698.2002
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Vol. 94, Issue 4, 1324-1334, April 2003

A simulation study to examine the use of cross-correlation as an estimate of surface EMG cross talk

Madeleine M. Lowery¹^,², Nikolay S. Stoykov¹^,², and Todd A. Kuiken¹^,²^,³

¹ Rehabilitation Institute of Chicago, and ² Department of Physical Medicine and Rehabilitation, Northwestern University, Chicago 60611; and ³ Department of Electrical and Computer Engineering, Northwestern University, Evanston, Illinois 60208

Cross-correlation between surface electromyogram (EMG) signals is commonly used as a means of quantifying EMG cross talk duringvoluntary activation. To examine the reliability of this method,the relationship between cross talk and the cross-correlationbetween surface EMG signals was examined by using model simulation.The simulation results illustrate an increase in cross talk withincreasing subcutaneous fat thickness. The results also indicatethat the cross-correlation function decays more rapidly with increasingdistance from the active fibers than cross talk, which was definedas the normalized EMG amplitude during activation of a singlemuscle. The influence of common drive and short-term motor unitsynchronization on the cross-correlation between surface EMG signalswas also examined. While common drive did not alter the maximumvalue of the cross-correlation function, the correlation increasedwith increasing motor unit synchronization. It is concluded thatcross-correlation analysis is not a suitable means of quantifyingcross talk or of distinguishing between cross talk and coactivationduring voluntary contraction. Furthermore, it is possible thata high correlation between surface EMG signals may reflect anassociation between motor unit firing times, for example due tomotor unitsynchronization.

surface electromyography; model; synchronization

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