Oral Glycine and Sodium Thiosulfate for Lethal Cyanide Ingestion

Background-Cyanide is a deadly compound used as a terrorist agent. Current FDA approved antidotes require intravenous administration, limiting their utility in a mass casualty scenario. Dimethyl trisulfide (DMTS), a sulfur-based molecule, binds cyanide converting it to the less toxic by-product thiocyanate. Studies evaluating efficacy in rodents have been performed, but a large, clinically relevant animal model has not been reported. Objective-This study evaluates the efficacy of intramuscular DMTS on survival and clinical outcomes in a swine model of acute, severe cyanide toxicity. Methods-Anesthetized swine were instrumented for continuous monitoring of hemodynamics. Prior to potassium cyanide infusion animals were acclimated and breathing spontaneously. At 5minutes post apnea animals were treated with DMTS or saline. Vital signs, hemodynamics, and laboratory values were evaluated at various time points. Results-Baseline values and time to apnea were similar in both groups. Survival in the DMTS treated group was 83.3% and 0% in saline controls (p=0.005). The DMTS group returned to breathing at a mean time of 19.3+10 min after antidote, control animals did not return to breathing (CI difference 8.8, 29.8). At the end of the experiment or time of death, mean lactate was 9.41 mmol/L vs. 4.35 mmol/L (CI difference −10.94,0.82) in the saline and DMTS groups, respectively and pH was 7.20 vs. 7.37 (CI difference −0.04, 0.38). No adverse effects were observed at the injection site. Conclusion-Intramuscular administration of DMTS improves survival and clinical outcomes in our large animal swine model of acute cyanide toxicity.

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Oral Glycine and Sodium Thiosulfate for Lethal Cyanide Ingestion

Cited by 4 publications

References 37 publications

Efficacy of oral administration of sodium thiosulfate in a large, swine model of oral cyanide toxicity

Efficacy of oral administration of sodium thiosulfate in a large, swine model of oral cyanide toxicity

Deficiency of thiosulfate sulfurtransferase mediates the dysfunction of renal tubular mitochondrial fatty acid oxidation in diabetic kidney disease

Intramuscular dimethyl trisulfide: efficacy in a large swine model of acute severe cyanide toxicity

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