# Shrinking the Skin: Motion Results in Compressive Mislocalization of Stimuli Applied 10 s Post‐Motion

**Authors:** Tatjana Seizova‐Cajic, Jack Brooks, Janet Taylor

PMC · DOI: 10.1111/ejn.70076 · The European Journal of Neuroscience · 2025-04-01

## TL;DR

Moving a brush across the skin with a gap in the middle makes people misjudge where they're touched, even 10 seconds later.

## Contribution

Shows that motion-induced spatial illusions affect static touch perception for at least 10 seconds.

## Key findings

- Localization responses shifted 4–10 mm toward a skipped patch after deceptive motion.
- Spatial distortion was equally strong 1 s and 10 s after motion.
- Participants perceived the gap as smaller after deceptive motion.

## Abstract

Localizing touch on the skin requires integration of multiple spatial signals, including reference landmarks and motion cues. It is well known that motion patterns can bias the perceived endpoint of motion. However, it is unknown whether static touch presented post‐motion is also distorted. To investigate this, we presented space‐changing motion patterns and tested position perception 1 s and 10 s post‐motion. We used a brush moving along the forearm at 15 cm s−1, brushing 4.5 cm skin patches near the elbow and near the wrist, skipping a 10‐cm long metal‐shielded patch in the middle (‘numb spot’). It accelerated to 100 cm s−1 across the shielded gap in an attempt to create an illusion of continuous motion between the separate brushed areas. After several such deceptive motions, 12 participants indicated the locations touched by a von Frey filament near the elbow and wrist, all within the previously brushed areas. Localization responses shifted 4–10 mm towards the numb spot in the skipped‐patch condition compared with controls with either continuous brushing across the full forearm, or brushing the same patches without acceleration. This spatial distortion was equally strong 1 s and 10 s after motion offset with only isolated location‐specific differences between delays. In addition, participants' sketches indicated a reduction in perceived gap size. We propose that participants used the brushed fields as reference frame for localisation, with the high‐velocity motion compressing the perceived space between them. This means that motion‐defined boundaries can serve as spatial landmarks for static touch.

Moving objects touch successive skin locations, providing spatial information. When a brush sweeps along the skin but rapidly accelerates to skip a patch in the middle, it creates deceptive temporal continuity between skin regions before and after the gap. This acceleration‐induced continuity causes spatial distortion: the untouched region perceptually shrinks and static touches near it are mislocalized towards it. The effect persists for at least 10 s, suggesting that stable updating of spatial relationships through motion patterns is possible.

## Full-text entities

- **Genes:** NUMB (NUMB endocytic adaptor protein) [NCBI Gene 8650] {aka C14orf41, S171, c14_5527}

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/PMC11962174/full.md

## Figures

12 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11962174/full.md

## References

44 references — full list in the complete paper: https://tomesphere.com/paper/PMC11962174/full.md

---
Source: https://tomesphere.com/paper/PMC11962174