# Self-Motion Misperception Induced by Neck Muscle Fatigue

**Authors:** Fabio Massimo Botti, Marco Guardabassi, Chiara Occhigrossi, Mario Faralli, Aldo Ferraresi, Francesco Draicchio, Vito Enrico Pettorossi

PMC · DOI: 10.3390/audiolres15050128 · Audiology Research · 2025-10-02

## TL;DR

Neck muscle fatigue can cause misperception of self-motion, even when combined with normal vestibular signals, leading to spatial orientation errors.

## Contribution

This study reveals that neck muscle fatigue disrupts self-motion perception even when vestibular input is intact.

## Key findings

- Neck muscle fatigue reduces perceptual gain at low-frequency head rotations.
- Localization errors increase after asymmetric rotations with muscle fatigue.
- Moderate fatigue still leads to significant self-motion misperception.

## Abstract

Background/Objectives: Previous research has demonstrated that the perception of self-motion, as signaled by cervical proprioception, is significantly altered during neck muscle fatigue, while no similar effects are observed when self-motion is signaled by the vestibular system. Given that in typical natural movements, both proprioceptive and vestibular signals are activated simultaneously, this study sought to investigate whether the misperception of motion persists during neck muscle fatigue when both proprioceptive and vestibular stimulation are present. Methods: The study evaluated the gain of the perceptual responses to symmetric yaw sinusoidal head rotations on a stationary trunk during visual target localization tasks across different rotational frequencies. In addition, the final localization error of the visual target was assessed following asymmetric sinusoidal head rotations with differing half-cycle velocities. Results: The findings indicated that even with combined proprioceptive and vestibular stimulation, self-motion perceptual responses under neck muscle fatigue showed a pronounced reduction in the gain at low-frequency stimuli and a notable increase in localization error following asymmetric rotations. Notably, spatial localization error was observed to persist after asymmetric stimulation conditioning in the light. Additionally, even moderate levels of muscle fatigue were found to result in increased self-motion misperception. Conclusions: This study suggests that neck muscle fatigue can disrupt spatial orientation, even when the vestibular system is activated, so that slow movements are inaccurately perceived. This highlights the potential risks associated with neck muscle fatigue in daily activities that demand precise spatial perception.

## Full-text entities

- **Diseases:** Motion (MESH:D009041), Neck Muscle Fatigue (MESH:D006258), muscle fatigue (MESH:D005221)

## Full text

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## Figures

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## References

46 references — full list in the complete paper: https://tomesphere.com/paper/PMC12561854/full.md

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Source: https://tomesphere.com/paper/PMC12561854