The coordination of bimanual prehension movements in a centrally deafferented patient

doi:10.1093/brain/123.2.380

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Brain, Vol. 123, No. 2, 380-393, February 2000
© 2000 Oxford University Press

The coordination of bimanual prehension movements in a centrally deafferented patient

G. M. Jackson¹, S. R. Jackson¹, M. Husain², M. Harvey³, T. Kramer³ and L. Dow⁴

¹ Centre for Perception, Attention and Motor Sciences, School of Psychology, University of Wales, Bangor, ² Division of Neuroscience and Psychological Medicine, Imperial College School of Medicine, Charing Cross Hospital, London, ³ Department of Experimental Psychology, University of Bristol and ⁴ Care of the Elderly, Frenchay Hospital, Bristol, UK

Correspondence to: Dr Georgina M. Jackson, School of Psychology, University of Nottingham, University Park, Nottingham NG7 2RD, UK E-mail: Gmj{at}Psychology.nottingham.ac.uk

Many everyday tasks require that we use our hands co-operatively,for example, when unscrewing a jar. For tasks where both handsare required to perform the same action, a common motor programmecan be used. However, where each hand needs to perform a differentaction, some degree of independent control of each hand is required.We examined the coordination of bimanual movement kinematicsin a female patient recovering from a cerebrovascular accidentinvolving anterior regions of the parietal lobe of the righthemisphere, which resulted in a dense hemianaesthesia of herleft arm. Our results indicate that unimanual movements executedby our patient using her non-sensate hand are relatively unimpaired.In contrast, during bimanual movements, reaches executed byour patient using her non-sensate hand show gross directionalerrors and spatiotemporal irregularities, including the inappropriatecoupling of movement velocities. These data are discussed withreference to the role played by limb proprioception in the planningand control of prehension movements.

bimanual movements; reach-to-grasp; deafferentation; hemianaesthesia; parietal cortex

BA = Brodmann area; BIT = Behavioural Inattention Test; MD = movement duration; PGA = peak grip aperture; SI = primary somatosensory cortex; SII = secondary somatosensory cortex; TTPGA% = time taken to reach peak grip aperture expressed as a percentage of total movement time; TTPV = time taken to reach peak movement velocity; WAIS-R = Wechsler Adult Intelligence Scale—Revised

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