Acute lung injury and persistent small airway disease in a rabbit model of chlorine inhalation

S Musah, CF Schlueter, DM Humphrey Jr… - Toxicology and applied …, 2017 - Elsevier
S Musah, CF Schlueter, DM Humphrey Jr, KS Powell, AM Roberts, GW Hoyle
Toxicology and applied pharmacology, 2017Elsevier
Chlorine is a pulmonary toxicant to which humans can be exposed through accidents or
intentional releases. Acute effects of chlorine inhalation in humans and animal models have
been well characterized, but less is known about persistent effects of acute, high-level
chlorine exposures. In particular, animal models that reproduce the long-term effects
suggested to occur in humans are lacking. Here, we report the development of a rabbit
model in which both acute and persistent effects of chlorine inhalation can be assessed …
Abstract
Chlorine is a pulmonary toxicant to which humans can be exposed through accidents or intentional releases. Acute effects of chlorine inhalation in humans and animal models have been well characterized, but less is known about persistent effects of acute, high-level chlorine exposures. In particular, animal models that reproduce the long-term effects suggested to occur in humans are lacking. Here, we report the development of a rabbit model in which both acute and persistent effects of chlorine inhalation can be assessed. Male New Zealand White rabbits were exposed to chlorine while the lungs were mechanically ventilated. After chlorine exposure, the rabbits were extubated and were allowed to survive for up to 24 h after exposure to 800 ppm chlorine for 4 min to study acute effects or up to 7 days after exposure to 400 ppm for 8 min to study longer term effects. Acute effects observed 6 or 24 h after inhalation of 800 ppm chlorine for 4 min included hypoxemia, pulmonary edema, airway epithelial injury, inflammation, altered baseline lung mechanics, and airway hyperreactivity to inhaled methacholine. Seven days after recovery from inhalation of 400 ppm chlorine for 8 min, rabbits exhibited mild hypoxemia, increased area of pressure–volume loops, and airway hyperreactivity. Lung histology 7 days after chlorine exposure revealed abnormalities in the small airways, including inflammation and sporadic bronchiolitis obliterans lesions. Immunostaining showed a paucity of club and ciliated cells in the epithelium at these sites. These results suggest that small airway disease may be an important component of persistent respiratory abnormalities that occur following acute chlorine exposure. This non-rodent chlorine exposure model should prove useful for studying persistent effects of acute chlorine exposure and for assessing efficacy of countermeasures for chlorine-induced lung injury.
Elsevier