Vol. 4 No. 2 (2022): July - Decembre 2022
Integrated therapy

Visual -W: Adaptation of Wisc/Wais to patients with Autism Spectrum Syndrome

Marco Filippini
SiPGI- Postgraduate School of Integrated Gestalt Psychotherapy
Rita Zampi
SiPGI- Postgraduate School of Integrated Gestalt Psychotherapy
Simona Verniti
SiPGI- Postgraduate School of Integrated Gestalt Psychotherapy
Elisabetta Nugnes
SiPGI- Postgraduate School of Integrated Gestalt Psychotherapy
Arianna Glorioso
SiPGI- Postgraduate School of Integrated Gestalt Psychotherapy

Published 2022-12-05

Keywords

  • autism,
  • Wisc,
  • Wais,
  • neuronal plasticity ,
  • ecological

How to Cite

Di Leva, A., Filippini, M., Zampi, R., Verniti, S., Nugnes, E., & Glorioso, A. (2022). Visual -W: Adaptation of Wisc/Wais to patients with Autism Spectrum Syndrome. Phenomena Journal - International Journal of Psychopathology, Neuroscience and Psychotherapy, 4(2), 109–116. https://doi.org/10.32069/PJ.2021.2.166

Abstract

This clinical cases study born from the observation and somministration of tests done on a sample of three people from 13 to 20 years old with autism spectrum diagnosis. The evaluation tools used are different on the age. They are: Wechesler Intelligenze Scale for Children (WISC-IV) and the Wechesler Adult Intelligence Scale (WAIS-IV TR).

The first hypothesis is that the way they use to do a test task is the same used to cope with the events of daily life.

Indeed, the study want to dimostrate that remodelling the test adapting it on the ability of patients studied can provide more ecological informations referring to the processes done during daily life. The aims to evaluate the subject’s intellectual level and to increase test battery to identify patient’s functional process  during his daily life. Furthermore, based on the patient’s abilities underlined during the execution of the task, it is possible develop treatment plan.

References

  1. Harrisson, B. (2021). L’Autismo spiegato ai non autistici. St. Charles Lise. Vallardi editore.
  2. Gaetano , E. (2018) Flessibilità cognitiva cambiare regola a seconda del contesto. State of mind.
  3. Chiusaroli, D. (2020). Strategie didattiche visive in persone con disturbo dello spettro autistico: studio di un caso. Italian Journal of special education for inclusion, 8(2), 190-207.
  4. Tager-Flusberg, H. (2008). Cognitive neuroscience of autism. Journal of the International Neuropsychological Society, 14(6), 917–921.
  5. Baron-Cohen, S. (2004). The cognitive neuroscience of autism. Journal of Neurology, Neurosurgery & Psychiatry, 75(7), 945–948.
  6. Courchesne, E., Karns, C. M., Davis, H. R., Ziccardi, R., Carper, R. A., Tigue, Z. D., Chisum, H. J., Moses, P., Pierce, K., Lord, C., Lincoln, A. J., Pizzo, S., Schreibman, L., Haas, R. H., Akshoomoff, N. A., & Courchesne, R. Y. (2001). Unusual brain growth patterns in early life in patients with autistic disorder: An MRI study. Neurology, 57(2), 245–254.
  7. Tambelli, R. (2017). Manuale di psicopatologia dell’infanzia. Bologna: Il mulino. Van Engeland, H., &Buitelaar, J. K. (2008). Autism Spectrum Disorders. In M. Rutter, D. V. M. Bishop, D. S. Pine, S. Scott, J. Stevenson, E. Taylor, & A. Thapar (A c.Di), Rutter’s Child and AdolescentPsychiatry (pagg. 759–781). Blackwell,Publishing Ltd.
  8. Pisula, E. (2010). The autistic mind in the light of neuropsychological studies. Acta Neurobiologiae Experimentalis, 70(2).
  9. Chiusaroli, D. (2020). Visual didactic strategies in people with autism spectrumdisorder: a case study. V. 8 N. 2 (2020): Italian Journal of Special Education of inclusion.III. ESITI DI RICERCA (a. ricerca qualitativa e quantitativa; b. Strumenti e metodologie).
  10. Cardillo, R., Vio, C., & Mammarella, I. C. (2020). A comparison of local-global visuospatial processing in autismspectrumdisorder, nonverballearningdisability, ADHD and typicaldevelopment. Research in DevelopmentalDisabilities, 103.
  11. Mammarella, I. C., Cardillo, R., & Zoccante, L. (2019). Differences in visuospatial processing in individuals with nonverbal learning disability or autism spectrum disorder without intellectual disability. Neuropsychology, 33(1), 123–134.
  12. Kanner, L. (1943). Autistic disturbances of affective contact. (Nerv. Child 2:217-50, 1943).
  13. Lloyd, M., MacDonald, M., & Lord, C. (2013). Abilità motorie dei bambini con disturbi dello spettro autistico. Autism, 17(2), 133–146.
  14. Newell, K. M., &Wade, M. G. (2018). Physicalgrowth, body scale, and perceptual-motordevelopment. In J. M. Plumert (A c. Di), Studying the perception-actionsystemas a model system for understandingdevelopment. (2018-35837-007; Vol. 55, pagg. 205–243). ElsevierAcademic Press.
  15. McGlashan, H. L., Blanchard, C. C. V., Sycamore, N. J., Lee, R., French, B., & Holmes, N. P. (2017). Improvement in children’s fine motor skills following a computerized typing intervention. Human Movement Science, 56, 29.
  16. Piek, J. P., Baynam, G. B., & Barrett, N. C. (2006). The relationship between fine and gross motor ability, self-perceptions and self-worth in children and adolescents. Human Movement Science, 25(1), 65–75.
  17. Lee, C. M., & Bo, J. (2021). Visuomotor adaptation and itsrelationship with motorability in children with and without autism spectrum disorder. Human Movement Science, 78.
  18. Vianello, R., & Mammarella, I. C. (2015). Psicologia delle disabilità: Una prospettiva life span. Parma: Edizioni Junior - Gruppo Spaggiari.
  19. Mody, M., Shui, A. M., Nowinski, L. A., Golas, S. B., Ferrone, C., O’Rourke, J. A., &McDougle, C. J. (2017). CommunicationDeficits and the Motor System: ExploringPatterns of Associations in AutismSpectrumDisorder (ASD). Journal of Autism and DevelopmentalDisorders, 47(1), 155–162.