Disrupted sensorimotor synchronization, but intact rhythm discrimination, in children treated for a cerebellar medulloblastoma

Joëlle Provasi, Valérie Doyère, Pierre S. Zélanti, Virginie Kieffer, Hervé Perdry, Nicole El Massioui, Bruce L. Brown, Georges Dellatolas, Jacques Grill, Sylvie Droit-Volet

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    15 Citations (Scopus)

    Abstract

    The aim of this study was to investigate the temporal abilities of children treated by surgery for a malignant tumor in the cerebellum, both in the perception and the production of rhythm. Children with a diagnosed medulloblastoma and age-matched control children were tested in a rhythm discrimination task and a sensorimotor synchronization task. Their motor and cognitive capabilities were also assessed through a battery of age-adapted neuropsychological tests. The results did not show any significant difference in performance between groups for the discrimination task. On the contrary, children with cerebellar lesions produced longer and more variable inter-tap intervals (ITI) in their spontaneous motor tempo (SMT) than did the control children. However, the length and, to a lesser extent, the variability of their SMT decreased after a synchronization phase, when they had been instructed to tap in synchrony with a beep. During the synchronization task, the children with medulloblastoma succeeded to modify the length of their ITI in response to an auditory rhythm, although with better success when the inter-stimuli intervals (ISI) were shorter than when they were longer than the ITIs of their own SMT. Correlational analyses revealed that children's poorer synchronization performance was related to lower scores in neuropsychological tests assessing motor dexterity and processing speed.

    Original languageEnglish
    Pages (from-to)2053-2068
    Number of pages16
    JournalResearch in Developmental Disabilities
    Volume35
    Issue number9
    DOIs
    Publication statusPublished - 1 Jan 2014

    Keywords

    • Cerebellum
    • Children
    • Lesion
    • Rhythm
    • Synchronization

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