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Ipsilateral motor dysfunction from unilateral stroke: Implications for the functional neuroanatomy of hemiparesis
  1. Olga Noskin (onoskin{at}neuro.columbia.edu)
  1. Columbia University Medical Center, NY, United States
    1. John W. Krakauer (jwk18{at}columbia.edu)
    1. Columbia University Medical Center, NY, United States
      1. Ronald M. Lazar (ral22{at}columbia.edu)
      1. Columbia University Medical Center, NY, United States
        1. Joanne R Festa (jf2128{at}columbia.edu)
        1. Columbia University Medical Center, NY, United States
          1. Catherine Handy (ch2480{at}columbia.edu)
          1. Columbia University Medical Center, NY, United States
            1. Katherine A. O'Brien (ktobrien4{at}gmail.com)
            1. Columbia University Medical Center, NY, United States
              1. Randolph S. Marshall (rsm2{at}columbia.edu)
              1. Columbia University Medical Center, NY, United States

                Abstract

                Background: Motor dysfunction in the contralateral hand has been well characterized after stroke. The ipsilateral hand has received less attention, yet may provide valuable insights into the structure of the motor system and the nature of the recovery process. By tracking motor function of both hands beginning in the acute stroke period in patients with cortical versus subcortical lesions, we sought to understand the functional anatomy of the ipsilateral deficit.

                Methods: We examined 30 patients with first-ever unilateral hemiparetic stroke, 23 with subcortical lesions affecting the corticospinal tract, 7 with cortical involvement. Patients performed hand dynamometry and the 9-Hole Peg Test (9HPT) with each hand at 24-48 hours, 1 week, 3 months and 1 year after stroke. Linear regression was used to compare the 2 different motor tasks in each hand. Repeated-measures ANOVA was used to compare recovery rates of the 2 tasks in the first 3 months.

                Results: Ipsilateral 9HPT scores averaged Z= -7.1, - 3.6, -2.5 and -2.3 at the 4 time points, whereas grip strength was unaffected. The initial degree of impairment of grip strength in the contralateral hand did not correlate with the degree of impairment of 9HPT in either the contralateral or ipsilateral hand (R2=.001, p=.98), whereas the initial degree of impairment of 9HPT in the contralateral hand correlated with degree of impairment of 9HPT in the ipsilateral hand (R2=.62, p=.007). The rate of recovery also differed for the 2 tasks (p=.005).

                Conclusion: Ipsilateral motor deficits are demonstrable immediately after stroke and extend into the subacute and chronic recovery period. Dissociation between grip strength and dexterity support the notion that dexterity and grip strength operate as anatomically and functionally distinct entities. Our findings in patients with subcortical lesions suggest that the model of white matter tract injury needs to be refined to reflect the influence of a subcortical lesion on bi-hemispheral cortical networks, rather than as a simple “severed cable” model of disruption of corticofugal fibers. Our data have implications for both stroke clinical trials and the development of new strategies for therapeutic intervention in stroke recovery.

                • ipsilateral hand
                • motor behavior
                • motor recovery
                • stroke

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