Inhalation of the nerve gas sarin impairs ventilatory responses to hypercapnia and hypoxia in rats

Zhuang, Jianguo; Xu, Fadi; Campen, Matthew J.; Zhang, Cancan; Peña-Philippides, Juan Carlos; Sopori, Mohan L.

doi:10.1016/j.taap.2008.07.016

Cited by 6 publications

(3 citation statements)

References 55 publications

(66 reference statements)

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“…Peripheral muscarinic receptor overstimulation produces broncho-constriction, oedema and excess secretions, which have been demonstrated, in the case of sarin poisoning, to respond to treatment with the antimuscarinic atropine, although efficacy was limited at high challenge doses, 28,29 although studies in sarinexposed rats suggested that disruption of the central respiratory drive was responsible for respiratory failure and death. 30 A centrally mediated respiratory disorder has been shown to contribute in human OP poisoning cases, and some benefit from diazepam treatment was demonstrated. 31 In a practical poisoning scenario, personnel might not be aware that they have been exposed to nerve agent until early signs of poisoning manifest, by which time a significant degree of tissue AChE inhibition might be present.…”

Section: Discussionmentioning

confidence: 99%

Post-exposure therapy with human butyrylcholinesterase following percutaneous VX challenge in guinea pigs

Mumford

Price

Lenz³

et al. 2011

Clinical Toxicology

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Human butyrylcholinesterase (huBuChE) has potential utility as a post-exposure therapy following percutaneous nerve agent poisoning as there is a slower absorption of agent by this route and hence a later onset of poisoning. METHODS. We used surgically implanted radiotelemetry devices to monitor heart rate, EEG, body temperature and locomotor activity in guinea pigs challenged with VX via the percutaneous route. RESULTS. Treatment with huBuChE (24.2 mg/kg, i.m.) at 30 or 120 min following percutaneous VX (~2.5 × LD(50)) protected 9 out of 10 animals from lethality. When i.m. huBuChE administration was delayed until the onset of observable signs of systemic cholinergic poisoning, only one out of six animals survived to 7 days. Survival increased to 50% when the same dose of huBuChE was given intravenously at the onset of signs of poisoning. This dose represents approximately 1/10th the stoichiometric equivalent of the dose of VX administered (0.74 mg/kg). Intramuscular administration of huBuChE (24.2 mg/kg) alone did not produce any changes in heart rate, brain electrical activity, temperature or locomotion compared to saline control. Survival following VX and huBuChE treatment was associated with minimal incapacitation and observable signs of poisoning, and the mitigation or prevention of detrimental physiological changes (e.g. seizure, bradycardia and hypothermia) observed in VX + saline-treated animals. At 7 days, cholinesterase activity in the erythrocytes and most brain areas of guinea pigs that received huBuChE at either 18 h prior to or 30 min following VX was not significantly different from that of naïve, weight-matched control animals. CONCLUSION. Percutaneous VX poisoning was successfully treated using post-exposure therapy with huBuChE bioscavenger. The opportunity for post-exposure treatment may have particular relevance in civilian settings, and this is a promising indication for the use of huBuChE.

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Section: Discussionmentioning

confidence: 99%

Post-exposure therapy with human butyrylcholinesterase following percutaneous VX challenge in guinea pigs

Mumford

Price

Lenz³

et al. 2011

Clinical Toxicology

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“…41,42 Chemosensory effects also proposed to contribute to CWNA-induced respiratory toxicity and may contribute to the acute effect following GD exposure. 43 With regard to the dose of GD, the most notable changes were observed in animals exposed to 841 mg/m 3 compared to 280 or 561 mg/m 3 GD exposures. Although not significant, mean MV, PIF, PEF, Ti, Te, EEP, pause, and Penh values showed dose-dependent changes with 280 or 561 mg/m 3 GD at 4 hours post-GD exposure that was reduced at 24 hours postexposure.…”

Section: Discussionmentioning

confidence: 94%

“…41,42 Chemosensory effects also proposed to contribute to CWNA-induced respiratory toxicity and may contribute to the acute effect following GD exposure. 43…”

Section: Discussionmentioning

confidence: 99%

Acute Changes in Pulmonary Function Following Microinstillation Inhalation Exposure to Soman in Nonatropenized Guinea Pigs

Perkins¹,

Pierre²,

Rezk³

et al. 2011

Int J Toxicol

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Barometric whole-body plethysmography (WBP) was used to examine pulmonary functions at 4 and 24 hours postexposure to soman (GD) in guinea pigs without therapeutics to improve survival. Endotracheal aerosolization by microinstillation was used to administer GD (280, 561, and 841 mg/m(3)) or saline to anesthetized guinea pigs. Significant increases in respiratory frequency (RF), tidal volume (TV), and minute volume (MV) were observed with 841 mg/m(3) GD at 4 hours and that were reduced at 24 hours postexposure. A dose-dependent increase in peak inspiration flow and peak expiration flow was present at 4-hour post-GD exposure that was reduced at 24 hours. Time of inspiration and expiration were decreased in all doses of GD exposure at 4 and 24 hours, with significant inhibition at 841 mg/m(3). End-expiratory pause (EEP) increased at 280 and 561 mg/m(3), but decreased in animals exposed 841 mg/m(3) at 24 hours postexposure. Pseudo-lung resistance (Penh) and pause followed similar patterns and increased at 4 hours, but decreased at 24 hours postexposure to 841 mg/m(3) of GD compared to control. These studies indicate GD exposure induces dose-dependent changes in pulmonary function that are significant at 841 mg/m(3) at 4 hours and remains 24 hours postexposure. Furthermore, at 4 hours, GD induces bronchoconstriction possibly due to copious airway secretion and ongoing lung injury in addition to cholinergic effects, while at 24 hours GD induces bronchodilation a possible consequence of initial compensatory mechanisms.

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IL-1β acutely increases pulmonary SP and permeability without associated changes in airway resistance and ventilation in anesthetized rats

Zhuang

Zhang

et al. 2011

Respiratory Physiology & Neurobiology

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Inhalation of the nerve gas sarin impairs ventilatory responses to hypercapnia and hypoxia in rats

Cited by 6 publications

References 55 publications

Post-exposure therapy with human butyrylcholinesterase following percutaneous VX challenge in guinea pigs

Post-exposure therapy with human butyrylcholinesterase following percutaneous VX challenge in guinea pigs

Acute Changes in Pulmonary Function Following Microinstillation Inhalation Exposure to Soman in Nonatropenized Guinea Pigs

IL-1β acutely increases pulmonary SP and permeability without associated changes in airway resistance and ventilation in anesthetized rats

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