Computer Simulation of Post-Spike Facilitation in Spike-Triggered Averages of Rectified EMG

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Computer Simulation of Post-Spike Facilitation in Spike-Triggered Averages of Rectified EMG

S. N. Baker and R. N. Lemon

Sobell Department of Neurophysiology, Institute of Neurology, Queen Square, London WC1N 3BG, United Kingdom

Baker, S. N. and R. N. Lemon. Computer simulation of post-spike facilitation in spike-triggered averages of rectifiedEMG. J. Neurophysiol. 80: 1391-1406, 1998. When the spikes ofa motor cortical cell are used to compile a spike-triggered average(STA) of rectified electromyographic (EMG) activity, a post-spikefacilitation (PSF) is sometimes seen. This is generally thoughtto be indicative of direct corticomotoneuronal (CM) connections.However, it has been claimed that a PSF could be caused by synchronizationbetween CM and non-CM cells. This study investigates the generationof PSF using a computer model. A population of cortical cellswas simulated, some of which made CM connections to a pool of103 motoneurons. Motoneurons were simulated using a biophysicallyrealistic model. A subpopulation of the cortical cells was synchronizedtogether. After a motoneuron discharge, a motor unit action potentialwas generated; these were summed to produce an EMG output. Realisticvalues were used for the corticospinal and peripheral nerve conductionvelocity distribution, for slowing of impulse conduction in CMterminal axons, and for the amount of cortical synchrony. STAof the rectified EMG from all cortical neurons showed PSF; however,these were qualitatively different for CM versus non-CM cells.Using an epoch analysis to determine reliability in a quantitativemanner, it was shown that the onset latency of PSF did not distinguishthe two classes of cells after 10,000 spikes because of high noisein the averages. The time of the PSF peak and the peak width athalf-maximum (PWHM) could separate CM from synchrony effects.However, only PWHM was robust against changes in motor unit action-potentialshape and duration and against changes in the width of corticalsynchrony. The amplitude of PSF from a CM cell could be doubledby the presence of synchrony. It is proposed that, if a PSF hasPWHM <7 ms, this reliably indicates that the trigger is a CM cellprojecting to the muscle whose EMG is averaged. In an analysisof experimental data where macaque motor cortical cells facilitatedhand and forearm muscle EMG, 74% of PSFs fulfilled this criterion.The PWHM criterion could be applied to other STA studies in whichit is important to exclude the effects of synchrony.

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