Reorganization of Sensory and Motor Systems in Hemiplegic Stroke Patients : A Positron Emission Tomography Study

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Stroke. 1999;30:1510-1516

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Behavioral Changes and Stroke

Computerized tomography and Magnetic Resonance Imaging

PET and SPECT

Reorganization of Sensory and Motor Systems in Hemiplegic Stroke Patients

A Positron Emission Tomography Study

Presented in part in abstract form at the 24th International Joint Conference on Stroke and Cerebral Circulation, Nashville, Tenn, February 4–6, 1999.

Gereon Nelles, MD; Gregor Spiekermann, PhD; Markus Jueptner, MD; Georg Leonhardt, MD; Stefan Müller, MD; Horst Gerhard, MD H. Christoph Diener, MD

From the Department of Neurology, University of Essen (G.N., G.S., G.L., C.D.); Neurologisches Therapiezentrum Essen, Philippusstift und Universitätsklinikum Essen (G.N., H.G., C.D.); and Rheinische Kliniken (M.J.) and Department of Nuclear Medicine (S.M.), University of Essen (Germany).

Correspondence to Gereon Nelles, MD, Neurologisches Therapiezentrum, Philippusstift und Neurologische Universitätsklinik, Laarmannstr 14, D-45359 Essen, Germany. E-mail gereon.nelles{at}uni-essen.de

Background and Purpose—Cortical reorganization of motorsystems has been found in recovered stroke patients. Reorganizationin nonrecovered hemiplegic stroke patients early after stroke,however, is less well described. We used positron emission tomographyto study the functional reorganization of motor and sensorysystems in hemiplegic stroke patients before motor recovery.

Methods—Regional cerebral blood flow (rCBF) was measuredin 6 hemiplegic stroke patients with a single, subcortical infarctand 3 normal subjects with the [¹⁵O]H₂O injection technique.Brain activation was achieved by passive elbow movements drivenby a torque motor. Increases of rCBF comparing passive movements andrest were assessed with statistical parametric mapping. Significantdifferences were defined at P<0.01.

Results—In normal subjects, significant increases of rCBFwere found in the contralateral sensorimotor cortex, supplementarymotor area, cingulate cortex, and bilaterally in the inferior parietalcortex. In stroke patients, significant activation was observedbilaterally in the inferior parietal cortex and in the contralateralsensorimotor cortex, ipsilateral prefrontal cortex, supplementarymotor area, and cingulate cortex. Significantly larger increasesof rCBF in patients compared with normal subjects were found bilaterallyin the sensorimotor cortex, stronger in the ipsilateral, unaffectedhemisphere, and in both parietal lobes, including the ipsilateralprecuneus.

Conclusions—Passive movements in hemiplegic stroke patients beforeclinical recovery elicit some of the brain activation patterns thathave been described during active movements after substantial motorrecovery. Changes of cerebral activation in sensory and motor systemsoccur early after stroke and may be a first step toward restorationof motor function after stroke.

Key Words: hemiplegia • somatosensory cortex • stroke • treatment outcome

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				T Ago, T Kitazono, H Ooboshi, J Takada, T Yoshiura, F Mihara, S Ibayashi, and M Iida Deterioration of pre-existing hemiparesis brought about by subsequent ipsilateral lacunar infarction J. Neurol. Neurosurg. Psychiatry, August 1, 2003; 74(8): 1152 - 1153. [Abstract] [Full Text] [PDF]

				C. Calautti and J.-C. Baron Functional Neuroimaging Studies of Motor Recovery After Stroke in Adults: A Review Stroke, June 1, 2003; 34(6): 1553 - 1566. [Abstract] [Full Text] [PDF]

				H. Reddy, S. Narayanan, M. Woolrich, T. Mitsumori, Y. Lapierre, D. L. Arnold, and P. M. Matthews Functional brain reorganization for hand movement in patients with multiple sclerosis: defining distinct effects of injury and disability Brain, December 1, 2002; 125(12): 2646 - 2657. [Abstract] [Full Text] [PDF]

				G. Nelles, G. Widman, A. de Greiff, A. Meistrowitz, A. Dimitrova, J. Weber, M. Forsting, J. Esser, and H. C. Diener Brain Representation of Hemifield Stimulation in Poststroke Visual Field Defects Stroke, May 1, 2002; 33(5): 1286 - 1293. [Abstract] [Full Text] [PDF]

				R. J. Morecraft, J. L. Herrick, K. S. Stilwell-Morecraft, J. L. Louie, C. M. Schroeder, J. G. Ottenbacher, and M. W. Schoolfield Localization of arm representation in the corona radiata and internal capsule in the non-human primate Brain, January 1, 2002; 125(1): 176 - 198. [Abstract] [Full Text] [PDF]

				C. Calautti, F. Leroy, J.-Y. Guincestre, and J.-C. Baron Dynamics of Motor Network Overactivation After Striatocapsular Stroke: A Longitudinal PET Study Using a Fixed-Performance Paradigm Stroke, November 1, 2001; 32(11): 2534 - 2542. [Abstract] [Full Text] [PDF]

				T. Mima, K. Toma, B. Koshy, and M. Hallett Coherence Between Cortical and Muscular Activities After Subcortical Stroke Stroke, November 1, 2001; 32(11): 2597 - 2601. [Abstract] [Full Text] [PDF]

				Y.-J. Lee, T.-S. Chung, Y. Soo Yoon, M. Sik Lee, S.-H. Han, G. Je Seong, and K. Jin Ahn The Role of Functional MR Imaging in Patients with Ischemia in the Visual Cortex AJNR Am. J. Neuroradiol., June 1, 2001; 22(6): 1043 - 1049. [Abstract] [Full Text] [PDF]

				R. S. Marshall, G. M. Perera, R. M. Lazar, J. W. Krakauer, R. C. Constantine, and R. L. DeLaPaz Evolution of Cortical Activation During Recovery From Corticospinal Tract Infarction Stroke, March 1, 2000; 31(3): 656 - 661. [Abstract] [Full Text] [PDF]

Original Contributions

Reorganization of Sensory and Motor Systems in Hemiplegic Stroke Patients

A Positron Emission Tomography Study