Abstract
Perceptual sensitivity to tactile roughness varies across individuals for the same degree of roughness. A number of neurophysiological studies have investigated the neural substrates of tactile roughness perception, but the neural processing underlying the strong individual differences in perceptual roughness sensitivity remains unknown. In this study, we explored the human brain activation patterns associated with the behavioral discriminability of surface texture roughness using functional magnetic resonance imaging (fMRI). First, a whole-brain searchlight multi-voxel pattern analysis (MVPA) was used to find brain regions from which we could decode roughness information. The searchlight MVPA revealed four brain regions showing significant decoding results: the supplementary motor area (SMA), contralateral postcentral gyrus (S1), and superior portion of the bilateral temporal pole (STP). Next, we evaluated the behavioral roughness discrimination sensitivity of each individual using the just-noticeable difference (JND) and correlated this with the decoding accuracy in each of the four regions. We found that only the SMA showed a significant correlation between neuronal decoding accuracy and JND across individuals; Participants with a smaller JND (i.e., better discrimination ability) exhibited higher decoding accuracy from their voxel response patterns in the SMA. Our findings suggest that multivariate voxel response patterns presented in the SMA represent individual perceptual sensitivity to tactile roughness and people with greater perceptual sensitivity to tactile roughness are likely to have more distinct neural representations of different roughness levels in their SMA.
Highlights
Humans perceive various kinds of mechanical stimuli when interacting with the external environment
We statistically assessed each set of voxel response patterns across the whole brain and revealed that the supplementary motor area (SMA), the contralateral S1, and the bilateral STP exhibit neural activity patterns specific to roughness discrimination
We observed that the SMA showed a significant correlation of the behavioral and neural decoding performances
Summary
Humans perceive various kinds of mechanical stimuli when interacting with the external environment. Perceptual sensitivity to tactile roughness has been investigated by probing how physical properties of a surface are perceived by an individual’s somatosensory system [1]. Many psychophysical studies have revealed that perceptual roughness sensitivity to identical tactile stimuli varies across individuals, leading to large differences in roughness discrimination capability [2,3,4,5,6]. Libouton and colleagues calculated individual discrimination thresholds to quantify perceptual sensitivity, and examined inter-subject variability from a human population [2]. They reported that the perceptual differences between individuals were as high as 32.5 μm (particle size of sandpaper) while the average discrimination threshold was 43.5 μm. We set out to find which parts of the brain were implicated in the large individual differences in tactile roughness sensitivity
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