Acute and long-lasting cardiac changes following a single whole-body exposure to sarin vapor in rats.

Epinephrine-induced arrhythmias (EPIA) are known to be associated with local cardiac cholinergic activation. The present study examined the development of QT prolongation and the effect on EPIA of whole-body exposure of animals to a potent acetylcholine esterase inhibitor. Freely moving rats were exposed to sarin vapor (34.2 +/- 0.8 microg/liter) for 10 min. The electrocardiograms (ECG) of exposed and control animals were monitored every 2 weeks for 6 months. One and six months post exposure, rats were challenged with epinephrine under anesthesia, and the threshold for arrhythmias was determined. Approximately 35% of the intoxicated rats died within 24 h of sarin exposure. Additional occasional deaths were recorded for up to 6 months (final mortality rate of 48%). Surviving rats showed, agitation, aggression, and weight loss compared to non-exposed rats, and about 20% of them experienced sporadic convulsions. Sarin-challenged rats with severe symptoms demonstrated QT segment prolongation during the first 2-3 weeks after exposure. The EPIA that appeared at a significantly lower blood pressure in the treated group in the first month after intoxication lasted for up to 6 months. This decrease in EPIA threshold was blocked by atropine and methyl-atropine. Three months post exposure no significant changes were detected in either k(D) or B(max) values of (3)H-N-methyl scopolamine binding to heart homogenates, or in the affinity of carbamylcholine to cardiac muscarinic receptors. The increase in the vulnerability to develop arrhythmias long after accidental or terror-related organophosphate (OP) intoxication, especially under challenging conditions such as stress or intensive physical exercise, may explain the delayed mortality observed following OP exposure.

Protection and inflammatory markers following exposure of guinea pigs to sarin vapour: comparative efficacy of three oximes.

The purpose of the present study was to compare the antidotal efficacy and the combined effects on inflammatory markers of three oximes--toxogonine, TMB4 and 2-PAM--in combination with anticholinergic drugs following exposure to sarin vapour by inhalation. Guinea pigs restrained in plethysmographs were exposed to various doses of sarin vapour (in the range of 1.4-4.4LD50). The antidotal mixture was injected immediately (5-20 s) following exposure (3 mg kg(-1) atropine and 1 mg kg(-1) benactyzine in combination with 6 mg kg(-1) toxogonine, 2 mg kg(-1) TMB4 or 12 mg kg(-1) 2-PAM). Bronchoalveolar lavage (BAL) samples were taken from surviving animals 24 h after exposure to determine the levels of inflammatory markers. A differential cell count was performed in BAL samples on Giemsa-stained slides. The inflammatory markers--histamine and prostaglandins (PGE)--were measured in BAL using radioimmunoassay (RIA) techniques. The survival rate in the various treatment groups and analysis of BAL samples showed that: (i) Toxogonine, TMB4 and 2-PAM, without pyridostigmine pretreatment, at doses that were proportional to their doses in the respective auto-injectors, exhibited similar antidotal efficacy against sarin exposure. (ii) The results demonstrated that a centrally acting anticholinergic drug is essential in the antidotal mixture to ensure survival. (iii) Histamine release and eosinophilia following sarin inhalation might require additional intervention, aimed at reducing the symptoms of allergic reaction and possibly expediting recovery.