Remote changes in cortical excitability after stroke

doi:10.1093/brain/awg044

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Brain, Vol. 126, No. 2, 470-481, February 2003
© 2003 Guarantors of Brain
doi: 10.1093/brain/awg044

Remote changes in cortical excitability after stroke

Cathrin M. Bütefisch¹^,2, Johannes Netz¹, Marion Weßling¹, Rüdiger J. Seitz² and Volker Hömberg¹

¹ Neurological Therapeutic Center and ² Department of Neurology, Heinrich-Heine University, Düsseldorf, Germany

Correspondence to: Cathrin M. Bütefisch, Neurological Therapeutic Center, Heinrich-Heine University Düsseldorf, Hohensandweg 37, D-40591 Düsseldorf, Germany E-mail: cathrin.buetefisch{at}uni-duesseldorf.de

Changes in the cerebral metabolism and the excitability of brainareas remote from an ischaemic brain lesion have been reportedin animals and humans and implicated as a mechanism relevantto functional recovery. The aim of the present study was todetermine whether changes in the inhibitory and excitatory activityin motor cortex of the non-affected hemisphere are present instroke patients, and whether these changes are related to theextent of the patients’ recovery of function. Transcranialmagnetic stimulation (TMS) was used to study the first dorsalinterosseus muscle (FDI) of the non-affected hand in 13 patientswith good recovery of hand function after stroke, and was comparedwith left hemispheric stimulation in 13 healthy age-matchedvolunteers. In the first experiment, paired-pulse TMS with theconditioning stimulus (CS) set at 80% of the subject’smotor threshold (MT) and interstimulus intervals (ISIs) of 2,3, 10 and 15 ms was used. In the second experiment, differentintensities of CS were used to study its inhibitory effect ona succeeding suprathreshold test stimulus at an ISI that waskept constant at 2 ms. In a third experiment, the risein motor evoked potential (MEP) amplitudes with increasing stimulusintensities was measured. In two additional control experiments,the effect of left versus right hemispheric stimulation in normalvolunteers and good versus poor recovery of hand function inpatients after stroke on the excitability of inhibitory andexcitatory activity was studied. MT, mean test MEP and recruitmentcurves were similar in patients and healthy volunteers. In thosepatients with good recovery, paired-pulse excitability was increasedat ISIs of 2 and 3 ms, similar to healthy volunteers atISIs of 10 and 15 ms. When tested with different CS intensitiesat an ISI of 2 ms, inhibitory activity was similar in patientsand healthy subjects at small CS intensities, but faded rapidlyat higher CS intensities in patients. In contrast, in patientswith poor recovery, this increase in cortical excitability athigher CS intensities was not seen. The similarity of MT, meantest MEP and recruitment curves in patients and healthy volunteersindicates that the overall corticomotoneuronal excitabilityhas not changed in patients. The similarity of the inhibitoryeffect at low CS intensities in the patients with good recoveryand healthy subjects, and the steeper increase of conditionedMEP amplitude at higher CS intensities in the recovering patientssuggest that in the patients’ contralesional motor cortexthe balance of excitatory and inhibitory activity was shiftedtowards an increase of excitatory activity in the neuronal circuitstested at ISIs of 2 and 3 ms. This shares similaritiesto mechanisms implicated as relevant for reorganizational processesafter experimental brain injury and may be relevant for functionalrecovery after stroke. The absence of changes in cortical excitabilityin patients with poor recovery supports the relevance of ourfindings for recovery.

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				C. A. Yarosh, D. S. Hoffman, and P. L. Strick Deficits in Movements of the Wrist Ipsilateral to a Stroke in Hemiparetic Subjects J Neurophysiol, December 1, 2004; 92(6): 3276 - 3285. [Abstract] [Full Text] [PDF]

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