Systemic Oxygen-Free Radical Production in Iron-Loaded Mice

Although iron is an essential element for normal cell metabolism, in excess quantities it is highly cytotoxic and lethal. In fact, acute iron poisoning is a leading cause of overdose mortality in young children. Hereditary hemochromatosis, a disorder of iron metabolism, is currently the most prevale...

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Veröffentlicht in:	Western journal of nursing research 2000-12, Vol.22 (8), p.927-935
Hauptverfasser:	Bartfay, Wally J., Bartfay, Emma
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis of Variance Animals Dose-Response Relationship, Drug Free radicals Free Radicals - blood Iron Iron - metabolism Iron - toxicity Male Medical disorders Mice Mice, Inbred Strains Poisoning Random Allocation Rodents
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creator	Bartfay, Wally J. Bartfay, Emma
description	Although iron is an essential element for normal cell metabolism, in excess quantities it is highly cytotoxic and lethal. In fact, acute iron poisoning is a leading cause of overdose mortality in young children. Hereditary hemochromatosis, a disorder of iron metabolism, is currently the most prevalent genetic disorder in the world, which results in organ failure and premature mortality. Hence, an enhanced understanding of its pathogenesis is critical for providing safe and effective nursing care to affected individuals and their families. Although the exact mechanism of iron’s toxicity is not known, it was hypothesized that chronic iron loading would result in increased tissue (heart, liver, and spleen) concentrations of iron and increased free radical production in a murine model (n = 20). Our results show that chronic iron loading results in highly significant dose-dependent increases in tissue concentrations of iron and systemic free radical generation (p < 0.001).
doi_str_mv	10.1177/01939450022044881
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In fact, acute iron poisoning is a leading cause of overdose mortality in young children. Hereditary hemochromatosis, a disorder of iron metabolism, is currently the most prevalent genetic disorder in the world, which results in organ failure and premature mortality. Hence, an enhanced understanding of its pathogenesis is critical for providing safe and effective nursing care to affected individuals and their families. Although the exact mechanism of iron’s toxicity is not known, it was hypothesized that chronic iron loading would result in increased tissue (heart, liver, and spleen) concentrations of iron and increased free radical production in a murine model (n = 20). 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subjects	Analysis of Variance Animals Dose-Response Relationship, Drug Free radicals Free Radicals - blood Iron Iron - metabolism Iron - toxicity Male Medical disorders Mice Mice, Inbred Strains Poisoning Random Allocation Rodents
title	Systemic Oxygen-Free Radical Production in Iron-Loaded Mice
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