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The human pupil and face encode sound affect and provide objective signatures of tinnitus and auditory hypersensitivity disorders.

Samuel S SmithKelly N JahnJenna A SugaiKen E HancockDaniel B Polley
Published in: bioRxiv : the preprint server for biology (2024)
Sound is jointly processed along acoustic and emotional dimensions. These dimensions can become distorted and entangled in persons with sensory disorders, producing a spectrum of loudness hypersensitivity, phantom percepts, and in some cases debilitating sound aversion. Here, we looked for objective signatures of disordered hearing (DH) in the human face. Pupil dilations and micro facial movement amplitudes scaled with sound valence in neurotypical listeners but not DH participants with chronic tinnitus (phantom ringing) and sound sensitivity. In DH participants, emotionally evocative sounds elicited abnormally large pupil dilations but blunted and invariant facial reactions that jointly provided an accurate prediction of individual tinnitus and hyperacusis questionnaire handicap scores. By contrast, EEG measures of central auditory gain identified steeper neural response growth functions but no association with symptom severity. These findings highlight dysregulated affective sound processing in persons with bothersome tinnitus and sound sensitivity disorders and introduce approaches for their objective measurement.
Keyphrases
  • hearing loss
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  • genome wide
  • high resolution
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  • gene expression
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  • patient reported