Characterization of perceptual and electrophysiological responses to high-speed robot-controlled pinprick stimulation
Listed in
This article is not in any list yet, why not save it to one of your lists.Abstract
Objective
Mechanical pinprick stimuli delivered via robotic systems have been applied using parameters derived from studies using handheld stimulators. This work evaluates the effects of stimulus force and duration on neurophysiological responses and subjective perception.
Methods
Twenty-seven healthy volunteers received pinprick stimuli on the right volar forearm using different combinations of force and duration that configured three stimulus intensities: low, medium and high impulse. The robotic system recorded stimulus force and duration in real-time, and participants rated the perceived intensity after each stimulus on a numerical rating scale (NRS). The peak amplitudes and latencies of the pinprick evoked potentials (PEPs) were compared for the stimulation impulse intensities. The NRS ratings were analysed using linear mixed models, and the PEP features were evaluated through spatio-temporal cluster permutation tests.
Results
The NRS ratings were 2.5 [7.0] for low, 16.4 [18.0] for medium, and 28.5 [31.1] for high impulse stimuli. Differences in brain activity were found when comparing all impulse intensities. Peak N2 latency was longer for high compared to low and for medium compared to low. P2 latency showed no differences across impulse intensities. N2 was more negative for high vs. low and for medium vs. low, with no significant difference between high and medium impulses.
Conclusions
Both cortical and subjective responses depend on the applied impulse intensity. Stimulation parameters should be selected based on the specific effect under investigation, as a range of peripheral afferents may be activated by mechanical stimuli.
