1 Division of Neurology, Department of Medicine, the University of Alabama Medical Center Birmingham, Alabama, 35233
In cats subjected to middle cerebral artery occlusion, the resulting ischemia was unaffected by the blood pressure at the time of occlusion when arterial PCOCO2 was normal or low. At normal and elevated blood pressures, hypercapnia established prior to occlusion minimized the ischemia and hypocapnia aggravated it. Re-occlusion during postischemic reactive hyperemia resulted in ischemia of the same severity as during the initial occlusion, provided PCOCO2 and blood pressure were not changed. These observations suggest that a general determinant of the severity of immediate ischemia in this preparation is the competence of the collateral circulation. This conclusion suggests that proper analysis of the pathogenesis of cerebral infarction requires consideration of immediate ischemia separately from the subsequent course of the ischemic lesion. There are so many variables bearing on the pathogenesis of cerebral infarction that a rational therapy of acute stroke can only be visualized when there is knowledge of the specific arterial lesion, frequent or continuous measurement of regional cerebral blood flow, regional metabolism or neuronal activity, intracranial pressure, and some way of distinguishing paralyzed but viable tissue from infarction.
© 1971 American Heart Association, Inc.
Physiological Modification of Immediate Ischemia due to Experimental Middle Cerebral Occlusion-Its Relevance to Cerebral Infarction
Key Words: regional cerebral blood flow • hypocapnia • hypercapnia • oxygen availability • collateral circulation