Duration-dependent response of SI to vibrotactile stimulation in squirrel monkey
- PMID: 17035362
- DOI: 10.1152/jn.00513.2006
Duration-dependent response of SI to vibrotactile stimulation in squirrel monkey
Abstract
In previous studies, we showed that the spatial and intensive aspects of the SI response to skin flutter stimulation are modified systematically as stimulus amplitude is increased. In this study, we examined the effects of duration of skin flutter stimulation on the spatiotemporal characteristics of the response of SI cortex. Optical intrinsic signal (OIS) imaging was used to study the evoked response in SI of anesthetized squirrel monkeys to 25-Hz sinusoidal vertical skin displacement stimulation. Four stimulus durations were tested (0.5, 1.0, 2.0, and 5.0 s); all stimuli were delivered to a discrete site on the glabrous skin of the contralateral forelimb. Skin stimulation evoked a prominent increase in absorbance within the forelimb regions in SI of the contralateral hemisphere. Responses to brief (0.5 s) stimuli were weaker and spatially more extensive than responses to longer duration stimuli (1.0, 2.0, and 5.0 s). Stimuli >or=1 s in duration suppressed responses to below background levels (decreased absorbance) in regions that surrounded the maximally activated region. The magnitude of the suppression in the surrounding regions was nonuniform and usually was strongest medial and posterior to the maximally activated region. The results show that sustained (>or=1.0 s) stimulation decreases the spatial extent of the responding SI cortical population. Registration of the optical responses with the previously documented SI topographical organization strongly suggests that the cortical regions that undergo the strongest suppression represent skin sites that are normally co-stimulated during tactile exploration.
Comment in
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Is there a common origin to surround-inhibition as seen through electrical activity versus hemodynamic changes? Focus on "Duration-dependent response in SI to vibrotactile stimulation in squirrel monkey".J Neurophysiol. 2007 Mar;97(3):1880-2. doi: 10.1152/jn.01218.2006. Epub 2007 Jan 10. J Neurophysiol. 2007. PMID: 17215499 No abstract available.
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