Recovery of Cognitive Function After Stroke

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Stroke. 1996;27:1798-1803

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(Stroke. 1996;27:1798-1803.)
© 1996 American Heart Association, Inc.

Articles

Recovery of Cognitive Function After Stroke

David W. Desmond, PhD; Joan T. Moroney, MD, MRCPI; Mary Sano, PhD Yaakov Stern, PhD

the Departments of Neurology (D.W.D., J.T.M., M.S., Y.S.) and Psychiatry (M.S., Y.S.) and the Gertrude H. Sergievsky Center (M.S., Y.S.), Columbia University, College of Physicians and Surgeons, New York, NY.

Correspondence to Dr Desmond, Neurological Institute, 710 W 168th St, New York, NY 10032.

Background and Purpose Previous studies have suggested thatrecovery of cognitive function after stroke is maximal withinthe first 3 months after onset. We performed the present studyto investigate the long-term course and clinical correlatesof improvement in generalized cognitive function after ischemicstroke.

Methods We administered a battery of neuropsychological teststo 151 patients (age, 70.4±7.7 years; education, 10.4±4.6years) at 3 months and then annually after stroke. We transformedtheir test results into z scores based on the performance ofa stroke-free normative group, averaged those scores to createa summary score, and defined improvement in annual examinationsas an increase in that summary score greater than two standarddeviations above the mean first annual change of the normativegroup. We then used logistic regression to determine whetherstroke location, syndrome, or recurrence; vascular risk factors;dementia status; depression; or demographic variables were associatedwith improvement.

Results We found that 19 of the 151 patients exhibited improvement,which was evident only at the first annual examination in mostcases. Logistic regression determined that improvement was significantlyrelated to left hemisphere infarction relative to brain stem/cerebellarinfarction (odds ratio [OR], 5.57), while the presence of amajor hemispheral stroke syndrome showed a trend toward significance(OR, 3.32). Diabetes mellitus was significantly associated witha failure to exhibit improvement (OR, 0.12). Based on the logisticmodel, the probability of long-term improvement would be 54.0%for a patient with a left hemisphere infarct and a major hemispheralsyndrome but only 11.9% if diabetes was also present.

Conclusions Long-term improvement in generalized cognitive functionmay be evident after stroke in association with left hemisphereinfarction and severe hemispheral syndromes, while it may becompromised by diabetes, possibly because of an increased burdenof cerebrovascular disease.

Key Words: cerebral infarction • cognition • diabetes mellitus • stroke outcome

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