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Clinical Recovery and Sleep Architecture Degradation

Published online by Cambridge University Press:  18 September 2015

Vladimir C. Hachinski*
Affiliation:
MacLachlan Stroke Unit, Sunnybrook Medical Centre, The University of Toronto, Toronto
Mortimer Mamelak
Affiliation:
Sleep Laboratory, Sunnybrook Medical Centre, The University of Toronto, Toronto
John W. Norris
Affiliation:
MacLachlan Stroke Unit, Sunnybrook Medical Centre, The University of Toronto, Toronto
*
University Hospital, P.O. Box 5339, London, Ontario, Canada N6A 5A5
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Abstract:

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We achieved a unique and timely recording of cerebral activity in a 70 year old woman immediately pre- and post-stroke, while studying the effect of acute cerebral infarction on sleep-electroencephalogram (EEG) patterns. Normal patterns, except for increased wakefulness, were recorded during two pre-infarct polysomnograms. Immediately following cerebral infarction increased delta activity was recorded from the infarcted hemisphere only. Initially, REM sleep could not be recorded from either side; however, on the third post infarct day REM sleep returned. Background EEG levels from both hemispheres became progressively slower, flatter and simpler. In addition, sleep spindles and the distinctive saw-tooth wave forms of sleep almost disappeared. At one year post-stroke sleep-EEG rhythm recordings from both hemispheres became more similar except for persisting delta activity from the left hemisphere. Unexpected deterioration of sleep-EEG pattern recordings from the undamaged hemisphere taken during the patient's clinical recovery remains unexplained. Serial sleep recording may facilitate the study of brain recovery, activity and reorganization following stroke.

Résumé:

RÉSUMÉ:

Nous avons réussi un enregistrement unique et opportun de l'activité cérébrale chez une femme âgée de 70 ans immédiatement pré- et post-accident cérébrovasculaire, pendant l'étude des effets de l'infarctus cérébral aigu sur le tracé électro-encéphalographique (EEG) enregistré pendant le sommeil. Un tracé normal, sauf pour une augmentation de l'état de veille, a été enregistré pendant deux polysomnogrammes pré-infarctus. Immédiatement après l'infarctus cérébral, une augmentation de l'activité delta a été enregistrée provenant de l'hémisphère infarcisé seulement. Initialement, le sommeil REM n'a pu être enregistré d'un côté comme de l'autre; cependant, le troisième jour post-infarctus, le sommeil REM est revenu. Le rythme de fond de l'EEG des deux hémisphères a ralenti progressivement, s'est aplati et simplifié. De plus, le fuseaux et les ondes en dents de scie caractéristiques du sommeil ont presque disparu. Un an après l'accident cérébrovasculaire, l'enregistrement du rythme électro-encéphalographique des deux hémisphères est devenu plus semblable, sauf pour la persistance d'activité delta à l'hémisphère gauche. Une détérioration imprévue du rythme EEG du sommeil à l'hémisphère non endommagé enregistré pendant la récupération clinique de la patiente demeure inexpliquée. Des enregistrements sériés pendant le sommeil pourraient faciliter l'étude de la récuperation, le l'activité et de la réorganisation cérébrales à la suite d'un accident cérébrovasculaire.

Type
Original Articles
Copyright
Copyright © Canadian Neurological Sciences Federation 1990

References

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