Enhancing Working Memory Capacity in Persian Cochlear Implanted Children: A Clinical Trial Study

Introduction: Sensory deprivations such as hearing impairment that affect sensory input have a secondary impact on cognitive functions such as working memory (WM). WM capacity is an important cognitive component that processes language-related activities. Moreover, several studies have shown a defic...

Full description

Bibliographic Details
Main Authors: Afsaneh Doosti, Maryam Jalalipour, Tayebeh Ahmadi, Seyed Basir Hashemi, Shapour Haghjou, Enayatollah Bakhshi
Format: Article
Language:English
Published: Mashhad University of Medical Sciences 2018-03-01
Series:Iranian Journal of Otorhinolaryngology
Subjects:
Online Access:http://ijorl.mums.ac.ir/article_10391_7682dfd67b2439684197324d2d8c6608.pdf
Description
Summary:Introduction: Sensory deprivations such as hearing impairment that affect sensory input have a secondary impact on cognitive functions such as working memory (WM). WM capacity is an important cognitive component that processes language-related activities. Moreover, several studies have shown a deficit in WM in children with a cochlear implant (CI). We aimed to assess the performance of children with CIs in pre- and post-training sessions and compare their scores on a battery of WM tests to investigate the efficacy of a WM training program.  Materials and Methods: Twenty-five children aged 7–10 years with a CI participated in this study. To train their WM, a computer game was used. In order to examine auditory WM, a test battery including standardized digit span (forward and backward variations), non-word and sentence repetition (subtest of the Test of Language Development–Primary) were assessed in pre- and post-training test sessions at Shiraz Implant Center.   Results: There were statistically significant differences between pre- and post-training test scores on all subtests. Test score differences were statistically significant for forward digit span (P=0.003), backward digit span (P=0.001), non-word repetition (P=0.001), and sentence repetition tasks (P=0.003) before and after training sessions.  Conclusion: Training may enhance WM capacity. With regards to the importance of WM in literacy and learning, it seems applying such intervention programs may be helpful in the rehabilitation of implanted children.
ISSN:2251-7251
2251-726X