Abstract
Since it has been shown that spatial development can be delayed in blind children, focused sensorimotor trainings that associate auditory and motor information might be used to prevent the risk of spatial-related developmental delays or impairments from an early age. With this aim, we proposed a new technological device based on the implicit link between action and perception: ABBI (Audio Bracelet for Blind Interaction) is an audio bracelet that produces a sound when a movement occurs by allowing the substitution of the visuo-motor association with a new audio-motor association. In this study, we assessed the effects of an extensive but entertaining sensorimotor training with ABBI on the development of spatial hearing in a group of seven 3–5 years old children with congenital blindness (n = 2; light perception or no perception of light) or low vision (n = 5; visual acuity range 1.1–1.7 LogMAR). The training required the participants to play several spatial games individually and/or together with the psychomotor therapist 1 h per week for 3 months: the spatial games consisted of exercises meant to train their ability to associate visual and motor-related signals from their body, in order to foster the development of multisensory processes. We measured spatial performance by asking participants to indicate the position of one single fixed (static condition) or moving (dynamic condition) sound source on a vertical sensorized surface. We found that spatial performance of congenitally blind but not low vision children is improved after the training, indicating that early interventions with the use of science-driven devices based on multisensory capabilities can provide consistent advancements in therapeutic interventions, improving the quality of life of children with visual disability.
Highlights
The ability to construct a sense of space in terms of auditory spatial representation is of fundamental importance for visually impaired children
The average results relative to spatial accuracy before and after the training performed with Audio Bracelet for Blind Interaction (ABBI) are presented in Figure 3 for early blind children and low vision children
This finding suggests that the strengthening of audio-motor association provided by the ABBI device is helpful for visually impaired children to refine the spatial representation of the environment
Summary
The ability to construct a sense of space in terms of auditory spatial representation is of fundamental importance for visually impaired children. Other studies indicate that sound localization abilities are impaired in infants and children with severe congenital blindness (Fraiberg, 1977; Cappagli et al, 2015, 2017; Cappagli and Gori, 2016; Vercillo et al, 2016) and even motor responses to sound can be delayed (Fraiberg et al, 1966; Adelson and Fraiberg, 1974) They seem to be unable to identify the position of sonorous objects embedded in space before 12 months (Fazzi et al, 2011), while sighted children start around 5 months (Bayley, 1993). The goal of therapeutic interventions should be to increase the opportunities to explore the surrounding environment and interact with peers, in order to learn how to use hearing to establish the sensorimotor feedback that for sighted children is necessary to promote spatial development (Bremner et al, 2008)
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