Jangwoen Lee1, Gary Rockwood2, Brian Logue3, Erica Manandhar3, Ilona Petrikovics4, Changhoon Han5, Vik Bebarta6, Sari B Mahon7, Tanya Burney7, Matthew Brenner7,8. 1. Beckman Laser Institute, University of California, 1002 Health Sciences Rd. East, Irvine, CA, 92612, USA. jangwl@uci.edu. 2. Analytical Toxicology Division, US Army Medical Research Institute of Chemical Defense, 2900 Rickets Point Road, Aberdeen Proving Ground, Aberdeen, MD, 21010, USA. 3. Department of Chemistry and Biochemistry, South Dakota University, Brookings, SD, 57007, USA. 4. Department of Chemistry, Sam Houston State University, Huntsville, TX, 77341, USA. 5. Department of Internal Medicine, National Health Insurance Service Ilsan Hospital, Goyang-si, Geonggi-do, 10444, South Korea. 6. Department of Emergency Medicine, University of Colorado School of Medicine, Aurora, CO, 80045, USA. 7. Beckman Laser Institute, University of California, 1002 Health Sciences Rd. East, Irvine, CA, 92612, USA. 8. Division of Pulmonary and Critical Care Medicine, Department of Medicine, University of California, Irvine, CA, 92868, USA.
Abstract
INTRODUCTION: Cyanide (CN) poisoning is a serious chemical threat from accidental or intentional exposures. Current CN exposure treatments, including direct binding agents, methemoglobin donors, and sulfur donors, have several limitations. Dimethyl trisulfide (DMTS) is capable of reacting with CN to form the less toxic thiocyanate with high efficiency, even without the sulfurtransferase rhodanese. We investigated a soluble DMTS formulation with the potential to provide a continuous supply of substrate for CN detoxification which could be delivered via intramuscular (IM) injection in a mass casualty situation. We also used non-invasive technology, diffuse optical spectroscopy (DOS), to monitor physiologic changes associated with CN exposure and reversal. METHODS: Thirty-six New Zealand white rabbits were infused with a lethal dose of sodium cyanide solution (20 mg/60 ml normal saline). Animals were divided into three groups and treated with saline, low dose (20 mg), or high dose (150 mg) of DMTS intramuscularly. DOS continuously assessed changes in tissue hemoglobin concentrations and cytochrome c oxidase redox state status throughout the experiment. RESULTS: IM injection of DMTS increased the survival in lethal CN poisoning. DOS demonstrated that high-dose DMTS (150 mg) reversed the effects of CN exposure on cytochrome c oxidase, while low dose (20 mg) did not fully reverse effects, even in surviving animals. CONCLUSIONS: This study demonstrated potential efficacy for the novel approach of supplying substrate for non-rhodanese mediated sulfur transferase pathways for CN detoxification via intramuscular injection in a moderate size animal model and showed that DOS was useful for optimizing the DMTS treatment.
INTRODUCTION:Cyanide (CN) poisoning is a serious chemical threat from accidental or intentional exposures. Current CN exposure treatments, including direct binding agents, methemoglobin donors, and sulfur donors, have several limitations. Dimethyl trisulfide (DMTS) is capable of reacting with CN to form the less toxic thiocyanate with high efficiency, even without the sulfurtransferase rhodanese. We investigated a soluble DMTS formulation with the potential to provide a continuous supply of substrate for CN detoxification which could be delivered via intramuscular (IM) injection in a mass casualty situation. We also used non-invasive technology, diffuse optical spectroscopy (DOS), to monitor physiologic changes associated with CN exposure and reversal. METHODS: Thirty-six New Zealand white rabbits were infused with a lethal dose of sodium cyanide solution (20 mg/60 ml normal saline). Animals were divided into three groups and treated with saline, low dose (20 mg), or high dose (150 mg) of DMTS intramuscularly. DOS continuously assessed changes in tissue hemoglobin concentrations and cytochrome c oxidase redox state status throughout the experiment. RESULTS: IM injection of DMTS increased the survival in lethal CN poisoning. DOS demonstrated that high-dose DMTS (150 mg) reversed the effects of CN exposure on cytochrome c oxidase, while low dose (20 mg) did not fully reverse effects, even in surviving animals. CONCLUSIONS: This study demonstrated potential efficacy for the novel approach of supplying substrate for non-rhodanese mediated sulfur transferase pathways for CN detoxification via intramuscular injection in a moderate size animal model and showed that DOS was useful for optimizing the DMTS treatment.
Entities:
Keywords:
Chemical and biological weapons; Cyanide toxicity reversal; Diffuse optical spectroscopy; Dimethyl trisulfide; Lethal cyanide poisoning; Optical hemodynamic monitoring
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