Journal Article

Functional recovery of children and adolescents after cerebellar tumour resection

Jürgen Konczak, Beate Schoch, Albena Dimitrova, Elke Gizewski and Dagmar Timmann

in Brain

Published on behalf of The Guarantors of Brain

Volume 128, issue 6, pages 1428-1441
Published in print June 2005 | ISSN: 0006-8950
Published online January 2005 | e-ISSN: 1460-2156 | DOI:
Functional recovery of children and adolescents after cerebellar tumour resection

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This study examined whether lesions to the cerebellum obtained in early childhood are better compensated than lesions in middle childhood or adolescence. Since cerebellar lesions might affect motor as well a cognitive performance, posture, upper limb and working memory function were assessed in 22 patients after resection of a cerebellar tumour (age at surgery 1–17 years, minimum 3 years post-surgery). Working memory was only impaired in those patients who had received chemo- or radiation therapy. Postural sway was enhanced in 64% of the patients during dynamic posturography conditions, which relied heavily on vestibular input for equilibrium control. Upper limb function was generally less impaired, but 54% of the patients revealed prolonged deceleration times in an arm pointing task, which probably does not reflect a genuine cerebellar deficit but rather the patients' adopted strategy to avoid overshooting. Age at surgery, time since surgery or lesion volume were poor predictors of motor or cognitive recovery. Brain imaging analysis revealed that lesions of all eight patients with abnormal posture who did not receive chemo- and/or radiation therapy included the fastigial and interposed nuclei (NF and NI). In patients with normal posture, NI and NF were spared. In 11 out of 12 patients with abnormal deceleration time, the region with the highest overlap included the NI and NF and dorsomedial portions of the dentate nuclei in 10 out of 12 patients. We conclude that cerebellar damage inflicted at a young age is not necessarily better compensated. The lesion site is critical for motor recovery, and lesions affecting the deep cerebellar nuclei are not fully compensated at any developmental age in humans.

Keywords: ataxia; cerebellum; development; human; motor control; MNI = Montreal Neurological Institute; NF = nucleus fastigius; NI = nucleus interpositus; WFN = World Federation of Neurology

Journal Article.  8823 words.  Illustrated.

Subjects: Neurology ; Neuroscience

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