Analysis of fMRI and finger tracking training in subjects with chronic stroke

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Brain, Vol. 125, No. 4, 773-788, April 2002
© 2002 Guarantors of Brain

Analysis of fMRI and finger tracking training in subjects with chronic stroke

James R. Carey¹, Teresa J. Kimberley¹, Scott M. Lewis²^,4, Edward J. Auerbach³, Lisa Dorsey¹, Peter Rundquist¹ and Kamil Ugurbil³

¹ Program in Physical Therapy, University of Minnesota, ² Department of Neurology and ³ Center for Magnetic Resonance Research, University of Minnesota Medical School and ⁴ Brain Sciences Center (11B), VA Medical Center, Minneapolis, Minn., USA

Correspondence to: James R. Carey, PhD, PT, Program in Physical Therapy, University of Minnesota, MMC Box 388, Minneapolis, MN 55455, USA E-mail: carey007{at}umn.edu

Hand movement recovery and cortical reorganization were studiedin 10 subjects with chronic stroke using functional MRI (fMRI)before and after training with an intensive finger movementtracking programme. Subjects were assigned randomly to a treatmentor control group. The treatment group received 18–20 sessionsof finger tracking training using target waveforms under variableconditions. The control group crossed over to receive the sametreatment after the control period. For comparison with a healthypopulation, nine well elderly females were also studied; however,the well elderly controls did not cross over after the controlperiod. The dependent variables consisted of a Box and Blockscore to measure prehensile ability (subjects with stroke only),a tracking accuracy score and quantification of active corticalareas using fMRI. For the tracking tests, the subjects trackeda sine wave target on a computer screen with extension and flexionmovements of the paretic index finger. Functional brain imageswere collected from the frontal and parietal lobes of the subjectwith a 4 tesla magnet. Areas of interest included the sensorimotorcortex (SMC), primary motor area (M1), primary sensory area(S1), premotor cortex (PMC) and supplementary motor area (SMA).Comparison between all subjects with stroke and all well elderlysubjects at pre-test was analysed with two-sample t-tests. Changefrom pre-test to post-test within subjects was analysed withpaired t-tests. Statistical significance was set at P < 0.05.Stroke treatment subjects demonstrated significant improvementin tracking accuracy, whereas stroke control subjects did notuntil after crossover treatment. At pre-test, the cortical activationin the subjects with stroke was predominantly ipsilateral tothe performing hand, whereas in the well elderly subjects itwas contralateral. Activation for the stroke treatment groupfollowing training switched to contralateral in SMC, M1, S1and PMC. The stroke control group’s activation remainedipsilateral after the control period, but switched to contralateralafter crossover to receive treatment. All well elderly subjectsmaintained predominantly contralateral activation throughout.Transfer of skill to functional activity was shown in significantlyimproved Box and Block scores for the stroke treatment group,with no such improvement in the stroke control group until aftercrossover. We concluded that individuals with chronic strokereceiving intensive tracking training showed improved trackingaccuracy and grasp and release function, and that these improvementswere accompanied by brain reorganization.

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				J. R. Carey, K. R. Greer, T. K. Grunewald, J. L. Steele, J. W. Wiemiller, E. Bhatt, A. Nagpal, O. Lungu, and E. J. Auerbach Primary Motor Area Activation during Precision-Demanding versus Simple Finger Movement. Neurorehabil Neural Repair, September 1, 2006; 20(3): 361 - 370. [Abstract] [PDF]

				N. Sharma, V. M. Pomeroy, and J.-C. Baron Motor Imagery: A Backdoor to the Motor System After Stroke? Stroke, July 1, 2006; 37(7): 1941 - 1952. [Abstract] [Full Text] [PDF]

				T. J. Kimberley, G. Khandekar, L. L. Skraba, J. A. Spencer, E. A. Van Gorp, and S. R. Walker Neural Substrates for Motor Imagery in Severe Hemiparesis Neurorehabil Neural Repair, June 1, 2006; 20(2): 268 - 277. [Abstract] [PDF]

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				C. Gerloff, K. Bushara, A. Sailer, E. M. Wassermann, R. Chen, T. Matsuoka, D. Waldvogel, G. F. Wittenberg, K. Ishii, L. G. Cohen, et al. Multimodal imaging of brain reorganization in motor areas of the contralesional hemisphere of well recovered patients after capsular stroke Brain, March 1, 2006; 129(3): 791 - 808. [Abstract] [Full Text] [PDF]

				N S Ward Mechanisms underlying recovery of motor function after stroke Postgrad. Med. J., August 1, 2005; 81(958): 510 - 514. [Abstract] [Full Text] [PDF]

				S. H. You, S. H. Jang, Y.-H. Kim, M. Hallett, S. H. Ahn, Y.-H. Kwon, J. H. Kim, and M. Y. Lee Virtual Reality-Induced Cortical Reorganization and Associated Locomotor Recovery in Chronic Stroke: An Experimenter-Blind Randomized Study Stroke, June 1, 2005; 36(6): 1166 - 1171. [Abstract] [Full Text] [PDF]

				T. Hanakawa, S. Parikh, M. K. Bruno, and M. Hallett Finger and Face Representations in the Ipsilateral Precentral Motor Areas in Humans J Neurophysiol, May 1, 2005; 93(5): 2950 - 2958. [Abstract] [Full Text] [PDF]

				V. M. Pomeroy, C. A. Clark, J. S. G. Miller, J.-C. Baron, H. S. Markus, and R. C. Tallis The Potential for Utilizing the "Mirror Neurone System" to Enhance Recovery of the Severely Affected Upper Limb Early after Stroke: A Review and Hypothesis Neurorehabil Neural Repair, March 1, 2005; 19(1): 4 - 13. [Abstract] [PDF]

				K. Morgen, N. Kadom, L. Sawaki, A. Tessitore, J. Ohayon, H. McFarland, J. Frank, R. Martin, and L. G. Cohen Training-dependent plasticity in patients with multiple sclerosis Brain, November 1, 2004; 127(11): 2506 - 2517. [Abstract] [Full Text] [PDF]

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				F. Binkofski and R. J. Seitz Modulation of the BOLD-response in early recovery from sensorimotor stroke Neurology, October 12, 2004; 63(7): 1223 - 1229. [Abstract] [Full Text] [PDF]

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				C. M. Butefisch Plasticity in the Human Cerebral Cortex: Lessons from the Normal Brain and from Stroke Neuroscientist, April 1, 2004; 10(2): 163 - 173. [Abstract] [PDF]

				E. A. Fridman, T. Hanakawa, M. Chung, F. Hummel, R. C. Leiguarda, and L. G. Cohen Reorganization of the human ipsilesional premotor cortex after stroke Brain, April 1, 2004; 127(4): 747 - 758. [Abstract] [Full Text] [PDF]