Electrophysiological Transcortical Diaschisis After Cortical Photothrombosis in Rat Brain

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Stroke. 1996;27:1105-1111

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(Stroke. 1996;27:1105-1111.)
© 1996 American Heart Association, Inc.

Articles

Electrophysiological Transcortical Diaschisis After Cortical Photothrombosis in Rat Brain

Irmgard Buchkremer-Ratzmann, MSc; Matthias August, CandMed; Georg Hagemann, MD Otto W. Witte, MD

From the Neurologische Klinik, Heinrich-Heine-Universität, Düsseldorf, Germany.

Correspondence to Otto W. Witte, MD, Neurologische Klinik, Heinrich-Heine-Universität, Moorenstraße 5, 40225 Düsseldorf, Germany. E-mail witte@leukos.neurologie-uni-duesseldorf.de.

Background and Purpose The severity of functional deficits aftera cortical infarction often does not correlate with lesion size.The stroke may affect pathways connecting to distant brain regionsand therefore may also alter the function of remote parts of thecortex. Remote changes in electric activity, blood flow, and metabolismare called diaschisis. In the present study we addressed thequestion of whether in brain areas contralateral to a photochemicallyinduced cortical infarction alteration of excitability can beobserved as an indication of the effects of diaschisis.

Methods We induced focal lesions in the sensory area at the borderof the motor and occipital cortices by injecting the photosensitizingdye rose bengal and illuminating the skull stereotaxically.Seven days after induction of photothrombosis, electrophysiological recordingswere obtained with standard methods from 400-µm-thickneocortical coronal slices. As an indication of inhibition weused a paired-pulse stimulus protocol and calculated a ratioof the amplitudes of the second versus the first excitatory postsynapticpotential.

Results In lesioned animals we found a significant increase ofthe ratio over a wide zone of the neocortex, both ipsilateraland contralateral, compared with unlesioned animals.

Conclusions Our results suggest that a neocortical infarctionleads to hyperexcitability not only in its direct vicinity butalso in the contralateral hemisphere. Such hyperexcitabilitymay contribute to increased activation of contralateral brainareas and to functional reorganization after stroke.

Key Words: cerebral ischemia • diaschisis • rats • photothrombosis

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