Automated Measurement of Infarct Size With Scanned Images of Triphenyltetrazolium Chloride–Stained Rat Brains

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Stroke. 1996;27:1657-1662

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(Stroke. 1996;27:1657-1662.)
© 1996 American Heart Association, Inc.

Articles

Automated Measurement of Infarct Size With Scanned Images of Triphenyltetrazolium Chloride–Stained Rat Brains

Eric J. Goldlust, BS; Richard P. Paczynski, MD; Yong Y. He, MD; Chung Y. Hsu, MD, PhD Mark P. Goldberg, MD

the Center for the Study of Nervous System Injury and Department of Neurology, Washington University School of Medicine, St Louis, Mo.

Correspondence to Mark P. Goldberg, MD, Department of Neurology, Box 8111, Washington University School of Medicine, 660 S Euclid Ave, St Louis, MO 63110. E-mail goldberg@neuro.wustl.edu.

Background and Purpose The extent of brain infarction afterfocal cerebral ischemia is frequently assessed with the mitochondrialactivity indicator 2,3,5-triphenyltetrazolium chloride (TTC).We describe an automated procedure for analysis of infarct sizein TTC-stained rat brains.

Methods Rats were subjected to middle cerebral artery occlusionand killed after 24 to 36 hours, and their brains were processedfor TTC staining. Digital images of coronal sections from thesebrains (n>50) were acquired with a desktop color scanner.The resulting images were divided into red, blue, and greencomponent images. Total brain and infarct areas were automaticallydetermined on the basis of total pixel intensity and area aftersegmentation of the red and green images, respectively. Automatedmeasurements were compared with those made with a video camera–basedimage acquisition system that required manual tracing of lesionboundaries.

Results The spatial resolution of scanned brain images ( ${approx}$ 200µm) was comparable to that of the camera-based systemand provided sufficient detail to recognize infarct boundariesand neuroanatomical features. Scanner-based acquisition andanalysis were faster than with the camera-based method. Thegreen component image accurately distinguished infarcted fromnormal brain, and the red component image represented totalbrain dimensions. Infarct measurements obtained by the automatedmethod correlated closely with those from conventional apparatus(R²=.89, P<.001). Intraobserver reliability with the automatedmethod (R²=1.00) was higher than with the conventional method(R²=.77).

Conclusions Infarct size after middle cerebral artery occlusionin the rat can be rapidly and reproducibly assessed with inexpensivescanning equipment and automated image analysis of TTC-stainedbrains.

Editorial Comment

Marc Fisher, MD, Guest Editor

The Medical Center of Central MassachusettsWorcester, Mass

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