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1 Cerebrovascular Research Center and Department of Neurosurgery, University of Tennessee Medical Units, 858 Madison Avenue, Room 231, Memphis, Tennessee 38103
This study has demonstrated that hypothermia with or without circulatory arrest produced ultrastructural alterations in the dog brain. Fluid accumulation in the perivascular area and in the neuropil persists for at least seven days. Neurons in all areas of the brain studied are quite resistant to fluid alterations. Minimal changes occurring in neurons appear to be reversible from these studies with no neuronal necrosis, even with cooling to 10°C. Endothelial cells and oligodendrocytes exhibit essentially normal morphology in all experimental groups. Astrocytes and their processes undergo the most severe alterations, with cellular changes greater in dogs subjected to 60 minutes than to 30 minutes of cardiac arrest, and progressive degrees of damage occurring with increases in postpumping time prior to sacrifice. Our studies indicate cytological damage increases for longer periods posthypothermia than earlier reports which noted a resolution at 72 hours of the edema observed at 24 hours. We have demonstrated with the electron microscope (EM) that edema persists for at least seven days. The application of new developments in the pumping technique such as improved filtering of microemboli may reduce the pathological alterations described in this study and aid the clinical management of patients subjected to hypothermia.
Note:
Department of Pathology, New York University Medical Center, 550 First Avenue, New York, New York 10016
© 1974 American Heart Association, Inc.
Ultrastructural Alterations in the Dog Brain After Profound Hypothermia Induced by Extracorporeal Circuit
Key Words: brain edema • perivascular edema • cerebral circulation • cardiopulmonary bypass • electron microscopy • cold effects