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Motor Influence in Developing Auditory Spatial Cognition in Hemiplegic Children with and without Visual Field Disorder.

Elena Aggius-VellaMonica GoriClaudio CampusStefania PetriFrancesca Tinelli
Published in: Children (Basel, Switzerland) (2022)
Spatial representation is a crucial skill for everyday interaction with the environment. Different factors seem to influence spatial perception, such as body movements and vision. However, it is still unknown if motor impairment affects the building of simple spatial perception. To investigate this point, we tested hemiplegic children with (HV) and without visual field (H) disorders in an auditory and visual-spatial localization and pitch discrimination task. Fifteen hemiplegic children (nine H and six HV) and twenty with typical development took part in the experiment. The tasks consisted in listening to a sound coming from a series of speakers positioned at the front or back of the subject. In one condition, subjects were asked to discriminate the pitch, while in the other, subjects had to localize the position of the sound. We also replicated the spatial task in a visual modality. Both groups of hemiplegic children performed worse in the auditory spatial localization task compared with the control, while no difference was found in the pitch discrimination task. For the visual-spatial localization task, only HV children differed from the two other groups. These results suggest that movement is important for the development of auditory spatial representation.
Keyphrases
  • young adults
  • working memory
  • computed tomography
  • hearing loss
  • mild cognitive impairment
  • neural network