An Ultrastructural Study on Changes of Vascular Permeability in Rat Brain Infarcts.
- Author:
In Ho PARK
1
;
Jin Ho CHO
;
Sang Woo JUHNG
;
Shin JUNG
;
Jae Hyoo KIM
;
Soo Han KIM
;
Sam Suk KANG
;
Je Hyuk LEE
Author Information
1. Department of Neurosurgery, Chonnam University Medical School, Kwangju, Korea.
- Publication Type:Original Article
- Keywords:
Brain infarct;
Contrast enhancement;
Ultrastructural study;
Vascular permeability;
Horseradish peroxidase
- MeSH:
Animals;
Astrocytes;
Brain Infarction;
Brain*;
Capillaries;
Capillary Permeability*;
Carotid Artery, Common;
Cytoplasm;
Diagnosis;
Endothelial Cells;
Horseradish Peroxidase;
Humans;
Magnetic Resonance Imaging;
Permeability;
Rats*;
Tight Junctions
- From:Journal of Korean Neurosurgical Society
1994;23(11):1223-1233
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
Diagnosis and therapeutic monitoring of human brain infarcts are dependent on imaging techniques such as computed axial tomography and magnetic resonance imaging. Yet, the radiological findings, especially contrast enhancement(CE), are not well correlated with the histopathological findings of the infarcts. By imaging techniques, CE is observed along the cortical margin of the infarcts, delayed in time after the initial attack. Explanation of the CE in terms of histopathological changes is the purpose of this study. Brain infarction was evoked by injection of homologous blood clots into the right common carotid artery of the rats. Three weeks after the injection, infarcts were examined light and electron microscopically. To confirm the possible increased permeability of vessels, horseradish peroxidase was injected intravenously before sacrifice of some rats. Unaffected brain tissue contralateral to the infarcts was examined for control. The results were as follows. Capillaries of the normal brain showed endothelial cells connected with tight junctions and approximated intimately to basement membrance on which cytoplasmic processes of the astrocytes rest. Pinocytotic vesicles in the endothelial cells were rarely observed. Horseradish peroxidase was confined almost to the capillary lumens. In contrast, regenerated capillaries in the infarcts showed endothedial cells with thin cytoplasmic processes protruded into the lumens and many pinocytotic vesicles. Toght junction and basement membrance were well formed, but astrocytes were not observed. Horseradish peroxidase was noted in the pinocytotic vesicles and around the capillaries. The regenerated capillaries were noted almost exclusively along the cortical margin of the infarcts. From the above results, CE of human brain infarcts along the cortical margin may be explained by the permeable capillaries regenerated at the cortical periphery of the infarcts.
