Regional Cerebral Blood Flow on Cerebral Reperfusion after Occlusion of Bilateral Common Carotid Arteries : An Experimental Cat Model.

Kang, Joon Ki; Sung, Tae Kyung; Jo, Byoung Il; Baik, Min Woo; Kim, Moon Chan; Huh, Choon Woong; Ha, Young Soo; Song, Jin Un

Original Article

Journal of Korean Neurosurgical Society 1983;12(3): 323-334.

Joon Ki Kang, Tae Kyung Sung, Byoung Il Jo, Min Woo Baik, Moon Chan Kim, Choon Woong Huh, Young Soo Ha, Jin Un Song

Department of Neurosurgery, Catholic Medical College, Seoul, Korea.

ABSTRACT

The microvasculature of the brain is also quite susceptible to ischemic insult, and substantial portions of the brain are not reperfused after restoration of the blood supply following overtime of critical ischemic periods. The purpose of this series of experiments was to determine the effects of ischemia on subsequential regional cerebral blood flow measurements and cortical electric activities following reperfusion after ischemia and also to define the proper time of vascular occlusion without irreversible neural damage. Cerebral ischemia was induced in cat by bilateral common carotid occlusions for periods of 10, 30, to 60 minutes, and the blood flow(rCBF) was measured by hydrogen clearance technique following ischemia, restoration of blood supply and electroencephalogram recovery could be predicted according to the rCBF. Forty adult cats weighing 2.7 to 4.0kg were used in this study. The animals were divided into 4 groups of 10 cats each : normal control, 10 min-clamped, 30 min-clamped, and 60 min-clamped groups. The results obtained were as follows : 1) The mean rCBF was 24.6+/-7.0ml/100g/min in control group. 2) Bilateral carotid occlusions resulted in a reduction of the rCBF (12.4+/-4.1ml/100g/min) to 50% of control flow on both hemispheres. 3) Sequential changes of the rCBF after reperfusion. (1) There was restored the rCBF(21.3+/-5.1ml/100g/min) to control flow in the 10 minutes-clamped group. (2) There was a 85% recovery of control flow in the 30 minutes-clamped group. (3) There was a only 25% recovery of control flow in the 60 minutes-clamped group. 4) A close correlation was found between cortical electrical activity and rCBF suggesting a threshold relationship. (1) The changes of cortical electric activity began to notice at rCBF less than 17.4+/-4.7ml/100g/min. (2) The changes of cortical electric activity noted at rCBF more than 10.2+/-2.3ml/100g/min. 5) There was no evidence of ischemic involvement at the cortex, white matter and basal ganglia in the 10 minutes clamped group, but demonstrated a dense wedge shaped infarct at the cortex and uncus herniation in the 60 minutes clamped group. The rCBF and cortical electric activity restorted to normal values in reperfusion within 10 minutes after occlusion of both common carotid arteries.