Resumen
Previous studies have shown that autistic people often display atypical responses when processing sensory information, with particular prevalence within the auditory domain. Often provoked by common everyday sounds, auditory hypersensitivity can result in self-regulatory fear responses. This can be potentially harmful to autistic individuals and the people around them and is associated with greater occurrence of anxiety, depression, and poorer overall quality of life in the autistic population. Rather than a physiological causation, the literature suggests that hypersensitivity to sound is likely to be caused by how auditory stimuli are processed in the brain. This paper reports a home-based digital intervention aimed to address auditory hypersensitivity in autistic children. Developed as an interactive virtual reality game, the system integrates exposure-based therapy techniques into game mechanics and delivers target auditory stimuli to the player rendered via binaural-based spatial audio. The performance of the platform was evaluated in a 10-week feasibility study, during which children (n = 7) engaged weekly with the game during a 30 min session. Following this period, a comparison of pre- and post-study measurements showed a decrease in sensitivity for five participants, with qualitative feedback highlighting an increase in tolerance towards real-world stimuli and challenging environments. These results provide initial support for SoundFields as a home-based intervention targeting auditory hypersensitivity experienced by autistic children.