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Quantitative Pinch Stimulator for Exploring Evoked Nociceptive Responses: A Pilot Study
Resource
BIOMEDICAL ENGINEERING ONLINE v.9 pp.ARTN79
Journal
BioMedical Engineering OnLine
Pages
79
Date Issued
2010
Date
2010
Author(s)
Abstract
Background: A mechanical noxious stimulator is useful for studies of pain , both for clinic and basic research. We propose to use a pinch stimulator that can not only generate a quantitative, reproducible noxious pinch but also simultaneously provide a synchronous external trigger signal , which is essential for acquisition of evoked potentials. Methods: For ethical considerations, audible and visual aids were incorporated so that pinch force could be regulated within a predetermined level. Reproducibility of the nociceptive responses evoked by this device was validated. The device was constructed with a simple circuit, and the element build-in was delicately selected for the minimum required to produce evoked potentials. Results: The magnitude of the force output is linearly proportional to the volts produced by the device i.e., during the pinch. Increases in force correspond to increases in the number of action potentials induced. Conclusions: This device may be useful for studying the mechanisms of nociceptive signal processing in the brain through application of reproducible, noxious pinch stimuli.
SDGs
Other Subjects
Pilot studies; Action potentials; Basic research; Ethical considerations; Linearly proportional; Pilot studies; Reproducibilities; Simple circuits; Visual aids; animal; article; electrical equipment; evoked response; male; pain; pathophysiology; physiology; pilot study; rat; somatosensory cortex; Wistar rat; Animals; Electrical Equipment and Supplies; Evoked Potentials; Male; Pain; Pilot Projects; Rats; Rats, Wistar; Somatosensory Cortex; Communication; Electrophysiology; Signal processing