Inorganic arsenic exposure affects pain behavior and inflammatory response in rat
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Inorganic arsenic (iAs) contamination of drinking water is a worldwide problem associated with an increased risk for the development of various types of cancer and noncancerous damage. In vitro studies have suggested that iAs can modulate the activity of macrophages producing an over-expression of cyclooxygenase-2 (COX-2) and resulting in an increase in prostaglandin E2 (PGE2) concentrations in endothelial cells. These effects may lead to an in vivo enhancement of inflammatory and pain responses. Our aim was to determine the effect of a single dose of arsenic or subchronic exposure to arsenic on pain behavior and tissue inflammation in rats. Rats were given a single dose of sodium arsenite (0.1, 1 and 10 mg/kg i.p.) or submitted to subchronic exposure to arsenic added to the drinking water for 4 weeks (0.1, 1, 10 and 100 ppm). Inflammatory pain was assessed by using the formalin and tail-flick tests, while inflammation was evaluated with the carrageenan model. Arsenite did not induce pain or significant inflammation by itself. In contrast, arsenite in both single dose administration and subchronic exposure increased not only the inflammatory process and the underlying hyperalgesic pain, but also induced a decrease in the pain threshold. Alterations in pain processing were dependent on the arsenic dose and the length of exposure, and the underlying mechanism involved an increased release of local PGE2. These results suggest that inorganic arsenic exposure enhances pain perception and exacerbates the pathological state of inflammatory diseases. © 2008 Elsevier Inc. All rights reserved.
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Arsenic; Arsenic in muscle; Experimental pain; Inflammatory pain; Tissue inflammation arsenite sodium; carrageenan; cyclooxygenase 2; drinking water; formaldehyde; prostaglandin E2; animal experiment; animal tissue; article; behavior; cell activity; controlled study; female; in vitro study; in vivo study; inflammation; macrophage; nonhuman; pain; pain threshold; protein expression; rat; tail flick test; Animals; Arsenites; Behavior, Animal; Carrageenan; Dinoprostone; Disease Models, Animal; Drug Administration Schedule; Female; Formaldehyde; Inflammation; Pain; Pain Measurement; Pain Threshold; Rats; Rats, Wistar; Sodium Compounds; Tail; Water Pollutants, Chemical; Water Supply; Rattus
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