Cerebellar damage produces selective deficits in verbal working memory

doi:10.1093/brain/awh685

Brain Advance Access originally published online on November 29, 2005
Brain 2006 129(2):306-320; doi:10.1093/brain/awh685

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Cerebellar damage produces selective deficits in verbal working memory

Susan M. Ravizza¹, Cristin A. McCormick², John E. Schlerf⁶, Timothy Justus⁷, Richard B. Ivry⁶ and Julie A. Fiez³^,4^,5

¹ Department of Psychology, University of California, Davis, CA, Departments of ² Communication Sciences & Disorders, ³ Neuroscience and ⁴ Psychology, University of Pittsburgh, ⁵ Center for the Neural Basis of Cognition, Pittsburgh, PA, ⁶ Department of Psychology, University of California, Berkeley, CA, USA and ⁷ Department of Experimental Psychology, University of Oxford, Oxford, UK

Correspondence to: Dr Susan Ravizza, Department of Psychology, UC Davis Imaging Research Center, 4701 X Street, Sacramento, CA 95817, USA Email: susan.ravizza{at}ucdmc.ucdavis.edu

The cerebellum is often active in imaging studies of verbalworking memory, consistent with a putative role in articulatoryrehearsal. While patients with cerebellar damage occasionallyexhibit a mild impairment on standard neuropsychological testsof working memory, these tests are not diagnostic for exploringthese processes in detail. The current study was designed todetermine whether damage to the cerebellum is associated withimpairments on a range of verbal working memory tasks, and ifso, under what circumstances. Moreover, we assessed the hypothesisthat these impairments are related to impaired rehearsal mechanisms.Patients with damage to the cerebellum (n = 15) exhibited aselective deficit in verbal working memory: spatial forwardand backward spans were normal, but forward and backward verbalspans were lower than controls. While the differences were significant,digit spans were relatively preserved, especially in comparisonto the dramatic reductions typically observed in classic ‘short-termmemory’ patients with perisylvian brain damage. The patientstended to be more impaired on a verbal version compared to aspatial version of a working memory task with a long delay andthis impairment was correlated with overall symptom and dysarthriaseverity. These results are consistent with a contribution ofthe cerebellum to rehearsal and suggest that inclusion of adelay before recall is especially detrimental in individualswith cerebellar damage. However, when we examined markers ofrehearsal (i.e. word-length and articulatory suppression effects)in an immediate serial recall task, we found that qualitativeaspects of the patients' rehearsal strategies were unaffected.We propose that the cerebellum may contribute to verbal workingmemory during the initial phonological encoding and/or by strengtheningmemory traces rather than by fundamentally subserving covertarticulatory rehearsal.

Key Words: verbal working memory; cerebellum; dysarthria; spatial memory

Abbreviations: SMA = supplementary motor area

Received May 4, 2005. Revised September 14, 2005. Accepted October 17, 2005.

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