Deaf-blindness in children

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When considering deaf-blindness from a developmental perspective, it is also possible to consider deaf-blindness from both the medical and the cultural or social perspectives. Researchers following the medical perspective, the most common point of view within the field of developmental science, tend to focus on the deficits of deaf-blind children and on the delays they experience in comparison with their typically developing peers. Within the developmental science framework, the cultural model allows researchers to study the plasticity of development in general and to learn about the development of identity and cultural affiliation of minority groups.

From a developmental medical point of view, the most important aspects of deaf-blindness are the age of onset and the severity of the hearing and visual impairments. According to the developmental model, the two sensory impairments multiply the effects of one another and intensify the impact each one has on an individual. Having two impairments likely inhibits the compensation of one impairment through the use of the other (e.g., compensating for deafness by lipreading). Consequently, the earlier the auditory and the visual impairments occur and the more severe the level of each impairment, the greater the consequences on development.

Deaf-blindness is likely to affect cognitive, language, social, and emotional development. Individuals who were born both deaf and blind commonly experience significant delays because they are not able to observe and thus learn about the world as readily as sighted or hearing infants do. According to Swiss psychologist Jean Piaget, whose research focused on cognitive development, individuals need to gain experience within their environment to acquire the skills and the knowledge necessary to successfully complete the tasks for each of four developmental stages. The sensorimotor period, the stage between birth and two years in which infants learn about the basic properties of objects, progresses through a series of substages and culminates in the infant’s ability to mentally represent objects. Infants acquire object permanence, the knowledge that objects continue to exist even when they are hidden. This is considered a difficult task for blind and deaf-blind infants because they only learn about the world within their reach. There are limited or no visual or auditory clues to provide them with information. Interesting objects within the environment encourage infants to investigate their surroundings. For blind and deaf-blind infants, this is not the case. Therefore, they spend much of their time in resting positions, often resorting to self-stimulating behaviours. Similar observations can be made throughout deaf-blind children’s development. With increasing age, the delays become greater, and it becomes difficult for them to catch up to their peers. It is therefore beneficial for the development of deaf-blind infants that they are diagnosed early and that age-appropriate stimulation is started young.

Deaf-blind children’s language development is also at risk for significant delays. First, deaf-blind children, similar to blind children in general, are likely to be delayed in their mental representation abilities and subsequently in their language development. Second, deaf-blind children with a significant hearing impairment tend to be delayed in their language development because they typically do not have access to language. They cannot hear spoken language, and they cannot see and thus imitate gestures or signs. Some deaf-blind infants, similar to deaf infants, may develop their own rudimentary gestures for certain objects or events. However, due to the lack of mental representation skills, infants born deaf-blind are less likely than deaf infants to be able to string together individual gestures to form complete thoughts or to express desires. On the other hand, those young children who either became deaf-blind after already acquiring mental representation abilities and those who have significant residual vision or hearing may learn mental representational skills more easily than their peers who were born completely deaf-blind.

Environmental factors play an essential role in determining later outcomes in children. This is the case particularly for deaf-blind children. If deaf-blind children are provided with an accessible language and an accessible environment in which they are stimulated and encouraged to investigate their surroundings, they learn at a rate similar to that of their hearing and sighted peers.

Ingrid C. Hofmann