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Visual–motor integration, visual perception and motor coordination in a population with Williams syndrome and in typically developing children
Author(s) -
Heiz J.,
Barisnikov K.
Publication year - 2016
Publication title -
journal of intellectual disability research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.941
H-Index - 104
eISSN - 1365-2788
pISSN - 0964-2633
DOI - 10.1111/jir.12328
Subject(s) - psychology , raven's progressive matrices , motor coordination , contrast (vision) , audiology , test (biology) , typically developing , developmental psychology , population , intelligence quotient , perception , visual perception , movement assessment , motor skill , cognition , medicine , psychiatry , paleontology , environmental health , artificial intelligence , autism , neuroscience , computer science , biology
Background Williams syndrome (WS) is characterised by severe deficits in visual–spatial abilities in contrast to relatively well‐developed language abilities. There is very limited knowledge about visual–motor integration (VMI) in people with WS. Method Twenty‐six participants with WS aged 6 to 41 years were assessed with all three tests of the Beery‐VMI test, namely the VMI test, the visual perception test (VP) and the motor coordination test (MC). Their results were compared with those of 154 typically developing children (TD) aged 4 to 12. Results No influence of age on the three tested abilities was found amongst the participants with WS in comparison with the TD children. The participants with WS scored similarly to the 5‐year‐old TD children in all three tasks; their scores on the VMI correlated with the results on the VP and MC tests, which were similar to those of the TD children. Finally, the scores on the non‐verbal intelligence test (Raven Coloured Progressive Matrices) were highly predictive of the scores in the VMI and VP tests and partially explain the variance in the MC scores. Conclusions The present study is the first to use all three tasks of the Beery‐VMI test. For the TD children, the performances on the three subtests did not show the same developmental trajectory. In contrast, the participants with WS did not show the same developmental trajectory. The participants with WS exhibited poor performances on all tasks with scores comparable with the 5‐year‐old TD children. As high correlations between these abilities were observed, improving VP and MC could help the development of VMI, which in turn could improve visual–spatial abilities in individuals with WS.