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Perceived tactile intensity at a fixed primary afferent spike rate varies with the temporal pattern of spikes.

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The perceived intensity of a vibrotactile stimulus is thought to depend on single neuron firing rates (rate coding) and the number of active afferents (population coding). Unaddressed until now is… Click to show full abstract

The perceived intensity of a vibrotactile stimulus is thought to depend on single neuron firing rates (rate coding) and the number of active afferents (population coding). Unaddressed until now is whether the temporal relation of individual spikes also conveys information about tactile intensity. We used cutaneous electro-tactile stimulation to investigate how the temporal structure of a fixed number of spikes in a 1 s train influenced the perception of intensity. Four mean spike rates spanning the flutter and vibratory hum range (36 Hz, 60 Hz; 120 Hz, 180 Hz) were tested, with spikes grouped into a regular pattern, or bursts of 2-6 spikes spaced 3 ms apart. To link a putative neural code to perception, perceived intensity was assessed in sixteen human participants (aged 20-45; 4 females) using the psychophysical paradigm of magnitude estimation. Compound sensory nerve action potentials were recorded to assess any stimulus variation in afferent recruitment. The temporal structuring of a fixed number of spikes into periodic bursts of multiple spikes altered perceived intensity as a function of burst spike count. The largest increase was seen at 36 Hz, where the bursts of 6 spikes were rated 2.1x stronger than the regularly spaced spikes (95% CI: 1.9-2.3). The true increase is likely larger as temporal structuring of spikes into bursts had some negative effect on afferent recruitment. We conclude that the perceived intensity can be modulated by changing temporal features of afferent discharge even when normalized for the number of recruited afferents.

Keywords: tactile intensity; spike; perceived intensity; rate; intensity; afferent

Journal Title: Journal of neurophysiology
Year Published: 2022

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