Quantitative Assessment of the Ischemic Brain by Means of Perfusion-Related Parameters Derived From Perfusion CT

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Stroke. 2001;32:431-437

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	Acute Cerebral Infarction
	Brain Circulation and Metabolism
	Computerized tomography and Magnetic Resonance Imaging

(Stroke. 2001;32:431.)
© 2001 American Heart Association, Inc.

Original Contributions

Quantitative Assessment of the Ischemic Brain by Means of Perfusion-Related Parameters Derived From Perfusion CT

Matthias Koenig, MD; Michael Kraus; Carmen Theek, MSc; Ernst Klotz, DPhys; Walter Gehlen, MD Lothar Heuser, MD

From the Departments of Radiology and Nuclear Medicine (M.K., L.H.) and Neurology (M.K., W.G.), Ruhr-University Bochum; the Department of Statistics, University of Dortmund (C.T.); and Siemens Medical Engineering Group (Computed Tomography), Forchheim, Germany.

Correspondence and reprint requests to Matthias Koenig, MD, Department of Radiology and Nuclear Medicine, Ruhr-University Bochum, Knappschaftskrankenhaus Langendreer, In der Schornau 23/25, D-44892 Bochum, Germany. E-mail matthias.koenig{at}ruhr-uni-bochum.de

Background and Purpose—Besides the delineation of hypoperfusedbrain tissue, the characterization of ischemia with respectto severity is of major clinical relevance, because the degreeof hypoperfusion is the most critical factor in determining whetheran ischemic lesion becomes an infarct or represents viable braintissue. CT perfusion imaging yields a set of perfusion relatedparameters which might be useful to describe the hemodynamicstatus of the ischemic brain. Our objective was to determinewhether measurements of the relative cerebral blood flow (rCBF),relative cerebral blood volume (rCBV), and relative time topeak (rTP) can be used to differentiate areas undergoing infarctionfrom reversible ischemic tissue.

Methods—In 34 patients with acute hemispheric ischemicstroke <6 hours after onset, perfusion CT was used to calculaterCBF, rCBV, and rTP values from areas of ischemic cortical andsubcortical gray matter. Results were obtained separately fromareas of infarction and noninfarction, according to the findingson follow-up imaging studies. The efficiency of each parameterto predict tissue outcome was tested.

Results—There was a significant difference between infarctand peri-infarct tissue for both rCBF and rCBV but not for rTP.Threshold values of 0.48 and 0.60 for rCBF and rCBV, respectively,were found to discriminate best between areas of infarctionand noninfarction, with the efficiency of the rCBV being slightlysuperior to that of rCBF. The prediction of tissue outcome couldnot be increased by using a combination of various perfusionparameters.

Conclusions—The assessment of cerebral ischemia by meansof perfusion parameters derived from perfusion CT provides valuable informationto predict tissue outcome. Quantitative analyses of the severityof ischemic lesions should be implemented into the diagnosticmanagement of stroke patients.

Key Words: cerebral infarction • cerebral ischemia • perfusion • tomography, x-ray computed

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