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Generation of oxygen radicals and mechanisms of injury prevention.

Exposure to crystalline silica can result in damage to the lung parenchyma and scarring that can lead to fibrosis. Pulmonary damage may be the direct consequence of toxic interaction between quartz particles and cell membranes, or it may be due to silica-induced production of oxidant species by pulm...

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Detalles Bibliográficos
Autor principal: Castranova, V
Formato: Texto
Lenguaje:English
Publicado: 1994
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1566974/
https://www.ncbi.nlm.nih.gov/pubmed/7705309
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author Castranova, V
author_facet Castranova, V
author_sort Castranova, V
collection PubMed
description Exposure to crystalline silica can result in damage to the lung parenchyma and scarring that can lead to fibrosis. Pulmonary damage may be the direct consequence of toxic interaction between quartz particles and cell membranes, or it may be due to silica-induced production of oxidant species by pulmonary phagocytes, that in turn overwhelms pulmonary antioxidant systems and causes lung injury. Data indicate that grinding or fracturing quartz particles breaks Si-O bonds and generates .Si and Si-O. radicals on the surface of the cleavage planes. Upon contact with water, these silica-based radicals can generate hydroxyl radicals (.OH). These surface radicals decay as fractured silica dust is aged. Freshly fractured quartz is significantly more potent than aged silica in directly causing lipid peroxidation, membrane damage, and cell death. Furthermore, freshly ground silica is a more potent stimulant of alveolar macrophages than aged silica. This silica-induced activation results in the production of superoxide (O2-), hydrogen peroxide (H2O2), nitric oxide (NO.), and other oxidant species that can damage lung cells. Tetrandrine, an herbal medicine that exhibits antifibrotic activity in rat models of silicosis, effectively blocks the ability of quartz to stimulate oxidant release from pulmonary phagocytes.
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spelling pubmed-15669742006-09-19 Generation of oxygen radicals and mechanisms of injury prevention. Castranova, V Environ Health Perspect Research Article Exposure to crystalline silica can result in damage to the lung parenchyma and scarring that can lead to fibrosis. Pulmonary damage may be the direct consequence of toxic interaction between quartz particles and cell membranes, or it may be due to silica-induced production of oxidant species by pulmonary phagocytes, that in turn overwhelms pulmonary antioxidant systems and causes lung injury. Data indicate that grinding or fracturing quartz particles breaks Si-O bonds and generates .Si and Si-O. radicals on the surface of the cleavage planes. Upon contact with water, these silica-based radicals can generate hydroxyl radicals (.OH). These surface radicals decay as fractured silica dust is aged. Freshly fractured quartz is significantly more potent than aged silica in directly causing lipid peroxidation, membrane damage, and cell death. Furthermore, freshly ground silica is a more potent stimulant of alveolar macrophages than aged silica. This silica-induced activation results in the production of superoxide (O2-), hydrogen peroxide (H2O2), nitric oxide (NO.), and other oxidant species that can damage lung cells. Tetrandrine, an herbal medicine that exhibits antifibrotic activity in rat models of silicosis, effectively blocks the ability of quartz to stimulate oxidant release from pulmonary phagocytes. 1994-12 /pmc/articles/PMC1566974/ /pubmed/7705309 Text en
spellingShingle Research Article
Castranova, V
Generation of oxygen radicals and mechanisms of injury prevention.
title Generation of oxygen radicals and mechanisms of injury prevention.
title_full Generation of oxygen radicals and mechanisms of injury prevention.
title_fullStr Generation of oxygen radicals and mechanisms of injury prevention.
title_full_unstemmed Generation of oxygen radicals and mechanisms of injury prevention.
title_short Generation of oxygen radicals and mechanisms of injury prevention.
title_sort generation of oxygen radicals and mechanisms of injury prevention.
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1566974/
https://www.ncbi.nlm.nih.gov/pubmed/7705309
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