Intracisternal increase of superoxide anion production in a canine subarachnoid hemorrhage model
Reactive oxygen species (ROS) are thought to be primary in the pathogenesis of cerebral vasospasm after subarachnoid hemorrhage (SAH). However, as direct evidence of ROS has not yet been demonstrated in cerebral vasospasm, we sought to substantiate superoxide anion (.O(2)(-)) generation in the subar...
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| Published in | Stroke (1970) Vol. 32; no. 3; pp. 636 - 642 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Hagerstown, MD
Lippincott Williams & Wilkins
01.03.2001
American Heart Association, Inc |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Reactive oxygen species (ROS) are thought to be primary in the pathogenesis of cerebral vasospasm after subarachnoid hemorrhage (SAH). However, as direct evidence of ROS has not yet been demonstrated in cerebral vasospasm, we sought to substantiate superoxide anion (.O(2)(-)) generation in the subarachnoid space after SAH using a modification of Karnovsky's manganese/diaminobenzidine (Mn(2+)/DAB) technique.
SAH or sham operation was induced according to a 2-hemorrhage model in a total of 24 beagle dogs. On day 2 or 7 after SAH or sham operation, dogs were intrathecally infused with buffer containing Mn(2+) and DAB, and the brain stem was prepared for light and electron microscopy. Possible colocalization of ferrous (Fe(2+)) or ferric (Fe(3+)) iron ions with.O(2)(-) was also examined with the use of Turnbull blue or Berlin blue staining, respectively.
Light microscopy revealed amorphous, amber deposits within the subarachnoid hematoma, the periarterial space, and the tunica adventitia of the basilar artery on days 2 and 7 after SAH.O(2)(-) deposits were eliminated by addition of superoxide dismutase or exclusion of either Mn(2+) or DAB from the perfusate, confirming the specificity of the reaction. These deposits were colocalized with blue reaction deposits indicating Fe(2+) and Fe(3+). Within the subarachnoid space,.O(2)(-) indicating electron-dense fine granules were preferentially located around degenerated erythrocytes and, secondarily, infiltrating macrophages and neutrophils.
We show direct evidence for enhanced production of.O(2)(-) and Fe(2+)/Fe(3+) iron ions in the subarachnoid space after SAH, lending further support to the pathogenic role of ROS in cerebral vasospasm after SAH. |
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| AbstractList | BACKGROUND AND PURPOSE: Reactive oxygen species (ROS) are thought to be primary in the pathogenesis of cerebral vasospasm after subarachnoid hemorrhage (SAH). However, as direct evidence of ROS has not yet been demonstrated in cerebral vasospasm, we sought to substantiate superoxide anion (.O(2)(-)) generation in the subarachnoid space after SAH using a modification of Karnovsky's manganese/diaminobenzidine (Mn(2+)/DAB) technique. METHODS: SAH or sham operation was induced according to a 2-hemorrhage model in a total of 24 beagle dogs. On day 2 or 7 after SAH or sham operation, dogs were intrathecally infused with buffer containing Mn(2+) and DAB, and the brain stem was prepared for light and electron microscopy. Possible colocalization of ferrous (Fe(2+)) or ferric (Fe(3+)) iron ions with.O(2)(-) was also examined with the use of Turnbull blue or Berlin blue staining, respectively. RESULTS: Light microscopy revealed amorphous, amber deposits within the subarachnoid hematoma, the periarterial space, and the tunica adventitia of the basilar artery on days 2 and 7 after SAH.O(2)(-) deposits were eliminated by addition of superoxide dismutase or exclusion of either Mn(2+) or DAB from the perfusate, confirming the specificity of the reaction. These deposits were colocalized with blue reaction deposits indicating Fe(2+) and Fe(3+). Within the subarachnoid space,.O(2)(-) indicating electron-dense fine granules were preferentially located around degenerated erythrocytes and, secondarily, infiltrating macrophages and neutrophils. CONCLUSIONS: We show direct evidence for enhanced production of.O(2)(-) and Fe(2+)/Fe(3+) iron ions in the subarachnoid space after SAH, lending further support to the pathogenic role of ROS in cerebral vasospasm after SAH. Background and Purpose —Reactive oxygen species (ROS) are thought to be primary in the pathogenesis of cerebral vasospasm after subarachnoid hemorrhage (SAH). However, as direct evidence of ROS has not yet been demonstrated in cerebral vasospasm, we sought to substantiate superoxide anion (·O 2 − ) generation in the subarachnoid space after SAH using a modification of Karnovsky’s manganese/diaminobenzidine (Mn 2+ /DAB) technique. Methods —SAH or sham operation was induced according to a 2-hemorrhage model in a total of 24 beagle dogs. On day 2 or 7 after SAH or sham operation, dogs were intrathecally infused with buffer containing Mn 2+ and DAB, and the brain stem was prepared for light and electron microscopy. Possible colocalization of ferrous (Fe 2+ ) or ferric (Fe 3+ ) iron ions with ·O 2 − was also examined with the use of Turnbull blue or Berlin blue staining, respectively. Results —Light microscopy revealed amorphous, amber deposits within the subarachnoid hematoma, the periarterial space, and the tunica adventitia of the basilar artery on days 2 and 7 after SAH. ·O 2 − deposits were eliminated by addition of superoxide dismutase or exclusion of either Mn 2+ or DAB from the perfusate, confirming the specificity of the reaction. These deposits were colocalized with blue reaction deposits indicating Fe 2+ and Fe 3+ . Within the subarachnoid space, ·O 2 − indicating electron-dense fine granules were preferentially located around degenerated erythrocytes and, secondarily, infiltrating macrophages and neutrophils. Conclusions —We show direct evidence for enhanced production of ·O 2 − and Fe 2+ /Fe 3+ iron ions in the subarachnoid space after SAH, lending further support to the pathogenic role of ROS in cerebral vasospasm after SAH. Reactive oxygen species (ROS) are thought to be primary in the pathogenesis of cerebral vasospasm after subarachnoid hemorrhage (SAH). However, as direct evidence of ROS has not yet been demonstrated in cerebral vasospasm, we sought to substantiate superoxide anion (.O(2)(-)) generation in the subarachnoid space after SAH using a modification of Karnovsky's manganese/diaminobenzidine (Mn(2+)/DAB) technique. SAH or sham operation was induced according to a 2-hemorrhage model in a total of 24 beagle dogs. On day 2 or 7 after SAH or sham operation, dogs were intrathecally infused with buffer containing Mn(2+) and DAB, and the brain stem was prepared for light and electron microscopy. Possible colocalization of ferrous (Fe(2+)) or ferric (Fe(3+)) iron ions with.O(2)(-) was also examined with the use of Turnbull blue or Berlin blue staining, respectively. Light microscopy revealed amorphous, amber deposits within the subarachnoid hematoma, the periarterial space, and the tunica adventitia of the basilar artery on days 2 and 7 after SAH.O(2)(-) deposits were eliminated by addition of superoxide dismutase or exclusion of either Mn(2+) or DAB from the perfusate, confirming the specificity of the reaction. These deposits were colocalized with blue reaction deposits indicating Fe(2+) and Fe(3+). Within the subarachnoid space,.O(2)(-) indicating electron-dense fine granules were preferentially located around degenerated erythrocytes and, secondarily, infiltrating macrophages and neutrophils. We show direct evidence for enhanced production of.O(2)(-) and Fe(2+)/Fe(3+) iron ions in the subarachnoid space after SAH, lending further support to the pathogenic role of ROS in cerebral vasospasm after SAH. BACKGROUND AND PURPOSEReactive oxygen species (ROS) are thought to be primary in the pathogenesis of cerebral vasospasm after subarachnoid hemorrhage (SAH). However, as direct evidence of ROS has not yet been demonstrated in cerebral vasospasm, we sought to substantiate superoxide anion (.O(2)(-)) generation in the subarachnoid space after SAH using a modification of Karnovsky's manganese/diaminobenzidine (Mn(2+)/DAB) technique.METHODSSAH or sham operation was induced according to a 2-hemorrhage model in a total of 24 beagle dogs. On day 2 or 7 after SAH or sham operation, dogs were intrathecally infused with buffer containing Mn(2+) and DAB, and the brain stem was prepared for light and electron microscopy. Possible colocalization of ferrous (Fe(2+)) or ferric (Fe(3+)) iron ions with.O(2)(-) was also examined with the use of Turnbull blue or Berlin blue staining, respectively.RESULTSLight microscopy revealed amorphous, amber deposits within the subarachnoid hematoma, the periarterial space, and the tunica adventitia of the basilar artery on days 2 and 7 after SAH.O(2)(-) deposits were eliminated by addition of superoxide dismutase or exclusion of either Mn(2+) or DAB from the perfusate, confirming the specificity of the reaction. These deposits were colocalized with blue reaction deposits indicating Fe(2+) and Fe(3+). Within the subarachnoid space,.O(2)(-) indicating electron-dense fine granules were preferentially located around degenerated erythrocytes and, secondarily, infiltrating macrophages and neutrophils.CONCLUSIONSWe show direct evidence for enhanced production of.O(2)(-) and Fe(2+)/Fe(3+) iron ions in the subarachnoid space after SAH, lending further support to the pathogenic role of ROS in cerebral vasospasm after SAH. |
| Author | JUN TAN ASANO, Takao NAGATA, Kazuya TOWN, Terrence MORI, Takashi MATSUI, Toru |
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| Keywords | Fissipedia Animal model Carnivora Nervous system diseases Pathophysiology Cardiovascular disease Hemorrhage Cerebral disorder Vascular disease Vertebrata Mammalia Animal Central nervous system disease Subarachnoid Radical anion Dog Cerebrovascular disease Histochemistry |
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| Snippet | Reactive oxygen species (ROS) are thought to be primary in the pathogenesis of cerebral vasospasm after subarachnoid hemorrhage (SAH). However, as direct... Background and Purpose —Reactive oxygen species (ROS) are thought to be primary in the pathogenesis of cerebral vasospasm after subarachnoid hemorrhage (SAH).... BACKGROUND AND PURPOSE: Reactive oxygen species (ROS) are thought to be primary in the pathogenesis of cerebral vasospasm after subarachnoid hemorrhage (SAH).... BACKGROUND AND PURPOSEReactive oxygen species (ROS) are thought to be primary in the pathogenesis of cerebral vasospasm after subarachnoid hemorrhage (SAH).... |
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| SubjectTerms | 3,3'-Diaminobenzidine - administration & dosage 3,3'-Diaminobenzidine - metabolism Animals Basilar Artery - pathology Biological and medical sciences Disease Models, Animal Disease Progression Dogs Erythrocytes - pathology Ferrocyanides Injections, Spinal Iron - metabolism Macrophages - pathology Manganese - administration & dosage Manganese - metabolism Medical sciences Microscopy, Electron Neurology Neutrophils - pathology Subarachnoid Hemorrhage - metabolism Subarachnoid Hemorrhage - pathology Subarachnoid Space - metabolism Subarachnoid Space - pathology Superoxides - metabolism Vascular diseases and vascular malformations of the nervous system |
| Title | Intracisternal increase of superoxide anion production in a canine subarachnoid hemorrhage model |
| URI | https://www.ncbi.nlm.nih.gov/pubmed/11239179 https://www.proquest.com/docview/197764143 https://search.proquest.com/docview/76958092 |
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