Journal ArticleDOI
Comparison of the Sensory Irritation Response in Mice to Chlorine and Hydrogen Chloride
TLDR
It was concluded that the current TLV of 1 ppm for chlorine is the upper acceptable limit, and that the establishedTLV of 5 ppm for hydrogen chloride lies at the lower limit of the predicted range.Abstract:
Groups of male Swiss-Webster mice were exposed to concentrations of chlorine varying from 0.7 to 38.4 ppm and to concentrations of hydrogen chloride varying from 40 to 943 ppm. The total exposure time to both gases was 10 minutes. Dose-response curves were plotted for both chlorine and hydrogen chloride, using the percentage decrease in respiratory rate during each exposure as the response reflecting sensory irritation of the upper respiratory tract. The results showed chlorine to be 33.0 times more irritating than hydrogen chloride, with 95% confidence limits of 18.6 and 57.1. Guidelines for obtaining a range of acceptable threshold limit values (TLV) based on sensory irritation of the upper respiratory tract are discussed. It was concluded that the current TLV of 1 ppm for chlorine is the upper acceptable limit, and that the established TLV of 5 ppm for hydrogen chloride lies at the lower limit of the predicted range. The mechanism of chlorine's and hydrogen chloride's sensory irritation may be explained by their reaction with various functional groups in the membranes of the trigeminal nerve endings lining the nasal mucosa.read more
Citations
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Journal ArticleDOI
TRPA1 Is a Major Oxidant Sensor in Murine Airway Sensory Neurons
Bret F. Bessac,Michael Sivula,Christian A. A. von Hehn,Jasmine Escalera,Lauren Cohn,Sven-Eric Jordt +5 more
TL;DR: It is shown that both hypochlorite, the oxidizing mediator of chlorine, and hydrogen peroxide, a reactive oxygen species, activated Ca(2+) influx and membrane currents in an oxidant-sensitive subpopulation of chemosensory neurons.
Journal ArticleDOI
Toxicity of fire smoke.
TL;DR: An analysis of toxicological findings in fire and nonfire deaths and the results of animal exposures to smoke from a variety of burning materials indicate that carbon monoxide is still likely to be the major toxicant in modern fires.
Journal ArticleDOI
Respiratory tract lesions induced by sensory irritants at the RD50 concentration.
TL;DR: Findings give additional support to the potential value of the RD50 model for setting occupational exposure guidelines and predicting the risk of injury to the respiratory tract from exposure to airborne sensory irritants.
Journal ArticleDOI
Mechanisms of activation of the sensory irritant receptor by airborne chemicals.
TL;DR: Activation chimique du systeme trijumeau resultant en secretion de neuropeptides (substance P) : role des enzymes hydrolytiques et du glutathion.
References
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Journal ArticleDOI
Sensory Irritation by Airborne Chemicals
TL;DR: In this paper, Sensory Irritation by Airborne Chemicals: Critical Reviews in Toxicology: Vol. 2, No. 3, pp. 299-363, was discussed.
Journal ArticleDOI
Irritating Properties of Airborne Materials to the Upper Respiratory Tract
TL;DR: In this article, the authors discuss the properties of airborne materials to the upper respiratory tract and discuss the effects of airborne material on the human respiratory tract, including the effect of altitude on the lungs.
Journal ArticleDOI
Chlorination studies II. The reaction of aqueous hypochlorous acid with α-amino acids and dipeptides☆
TL;DR: HOCl by oxidative decarboxylation converts several α-amino acids into a mixture of the corresponding nitriles (major) and aldehydes (minor product) and chlorination of the ring of tyrosine was observed.