Motor recovery after stroke: Morphological and functional brain alterations

doi:10.1093/brain/119.6.1849

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Brain, Vol. 119, No. 6, 1849-1857, 1996
© 1996 Guarantors of Brain

research-article

Motor recovery after stroke

Morphological and functional brain alterations

Patrizia Pantano¹^,, Rita Formisano², Monica Ricci¹, Vittorio Di Piero¹, Umberto Sabatini³, Bruno Di Pofi¹, Roberto Rossi², Luigi Bozzao¹ and Gian Luigi Lenzi¹

¹Department of Neurological Sciences, University of Rome ‘La Sapienza’; ²IRCCS Santa Lucia, Rome ³Istituto Mediterraneo di Neuroscienze Sanatrix Pozzilli (IS), Italy

Correspondence to: Correspondence to: Patrizia Pantano, MD, Department of Neurological Sciences, University of Rome ‘La Sapienza’, Viale dell'Università 30 00185-1 Rome, Italy

The aim of this study was to evaluate the relationships of morphologicaland CBF patterns with both the severity and the evolution ofthe motor deficit in the late phase of stroke and, in particular,to identify morphological and/or functional brain alterationsassociated with a persistent severe motor deficit or a poor,delayed motor recovery. We analysed CT/ MRI and single photonemission tomography (SPET) findings from 37 patients studiedin the chronic phase of stroke (mean duration±SD=3.6±1.6months), whom we were able to follow clinically for a periodof 3 months. The eventual degree of motor recovery correlatedsignificantly (negatively) with the time since stroke at entry,but not with the severity of neurological impairment at entry.The volume, side and location (cortical or subcortical) of theinfarct did not correlate with either the severity or the evolutionof the motor deficit. Patients with a CT/MRI lesion of the parietallobe (n = 8) showed a more severe motor deficit than those withother cortical locations. The severity of the motor deficitcorrelated significantly (negatively) with CBF values in thesupplementary motor area (SMA) and parietal areas of the damagedhemisphere, and in the contralateral undamaged primary motorcortex. The degree of motor improvement correlated significantly(positively) with CBF values in the contralateral undamagedthalamus, lentiform and caudate nuclei, and premotor cortex.In the late phase of stroke, the severity of the motor deficitmay be positively associated with the functional impairmentof associative parietal and frontal areas of the damaged hemisphere.The functional impairment of the basal ganglia—frontalnetwork in the undamaged hemisphere seems to be related to apoor, delayed motor recovery.

motor deficit; motor recovery; stroke; single photon emission tomography; cerebral blood flow

Received April 30, 1996. Revised July 15, 1996. Accepted August 6, 1996.

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