References
- McKeen S. High production volume (HPV) chemicals. Paris (France): The Organization for Economic Co-Operation and Development; Environment Directorate; 2010.
- Chang S, Lamm SH. Human health effects of sodium azide exposure: a literature review and analysis. Int J Toxicol. 2003; 22(3):175–186.
- Tat J, Heskett K, Satomi S, et al. Sodium azide poisoning: a narrative review. Clinical Toxicology. 2021;59(8):683–697.
- The Japan Times [Internet]. Poisonings uncover lax sodium azide controls. The Japan Times. 1998. October 30 Sect. National. Available from: https://www.japantimes.co.jp/news/1998/10/30/national/poisonings-uncover-lax-sodium-azide-controls/#.W1YN3NJKjIU.
- Zambito T [Internet]. Man admits making deadly toxins Jersey City ex-pharmacist also stockpiled cache of weapons. The Star-Ledger (Newark, NJ) 2014. 2014/05/30 [cited 2019 Nov 13]; 001. Available from: https://infoweb.newsbank.com/apps/news/document-view?p=AWNB&docref=news/14E2312D8C23ECE8.
- Agence France-Presse [Internet]. Czech embassy in Slovakia gets poisoned mail. Agence France-Presse. 2014 [cited 2019 Nov 12]. Available from: https://infoweb.newsbank.com/apps/news/document-view?p=AWNB&docref=news/1522EAF0A6ED0AC8.
- Pankratz H [Internet]. Raided building evacuated again Chemist may have poured compounds in sink. The Denver Post, (Denver, CO); 2002 2002/08/16 [cited 2019 Nov 12]. Available from: https://infoweb.newsbank.com/apps/news/document-view?p=AWNB&docref=news/0F575FDC8AC5FBC4.
- US Fed News (USA) [Internet]. Pipe bomb crafted from vehicle airbag gets Birmingham man 10 years in federal prison. US Fed News (USA). 2014 2014/08/28 [cited 2019 Nov 13]. Available from: https://infoweb.newsbank.com/apps/news/document-view?p=AWNB&docref=news/14FFB2D572480648.
- Leonard JB, Hines EQ, Anderson BD. Prime eligible poisons: identification of extremely hazardous substances available on amazon.com®. Clinical Toxicology. 2020;58(1):45–48.
- The Times Argus [Internet]. Harvard: Lab workers poisoned by tainted coffee. Times Argus, The (Montpelier-Barre, VT). 2009 2009/10/26 [cited 2019 Nov 13]. Available from: https://infoweb.newsbank.com/apps/news/document-view?p=AWNB&docref=news/12B9718F2062C968.
- New Haven Register [Internet]. Sodium azide may have caused illness at Yale school of medicine in New Haven, officials say. New Haven Register (CT): Hearst Communications. 2017. 2017/03/08 [cited 2019 Nov 13]. Available from: https://infoweb.newsbank.com/apps/news/document-view?p=AWNB&docref=news/16305CE60C373280
- Hirose Y, Hata K, Honda H, et al. Clinical study of a sodium azide poisoning cluster. Nihon Kyukyu Igakukai Zasshi. 2001;12(3):125–129.
- Schwarz ES, Wax PM, Kleinschmidt KC, et al. Multiple poisonings with sodium azide at a local restaurant. J Emergency Med. 2014;46(4):491–494.
- Holstege CP, Bechtel LK, Reilly TH, et al. Unusual but potential agents of terrorists. Emergency Med Clinics North America. 2007;25(2):549–566.
- Workum JD, Bisschops LL, van den Berg MJ. Autointoxication with 'suicide powder. Nederlands Tijdschrift Voor Geneeskunde. 2019;163:D3369.
- Keilin D, Hartree E. Inhibitors of catalase reaction. Nature. 1934;134(3398):933–933.
- Stannard J, Horecker B. The in vitro inhibition of cytochrome oxidase by azide and cyanide. J Biol Chem. 1948;172(2):599–608.
- Jiang J, Chan A, Ali S, et al. Hydrogen sulfide–mechanisms of toxicity and development of an antidote. Sci Rep. 2016; Feb 156:20831.
- Philipopoulos GP, Tat J, Chan A, et al. Methyl mercaptan gas: mechanisms of toxicity and demonstration of the effectiveness of cobinamide as an antidote in mice and rabbits. Clin Toxicol. 2022; 60(5):615–622.
- Somade OT, Olorode SK, Olaniyan TO, et al. Quercetin, a polyphenolic phytochemical prevents sodium azide-induced extra-hepatic oxidative stress in rats. Cogent Biol. 2016;2(1):1200798.
- Kruszyna H, Kruszyna R, Smith RP, et al. Red blood cells generate nitric oxide from directly acting, nitrogenous vasodilators. Toxicol Appl Pharmacol. 1987;91(3):429–438.
- Kruszyna R, Kruszyna H, Smith RP, et al. Generation of valency hybrids and nitrosylated species of hemoglobin in mice by nitric oxide vasodilators. Toxicol Applied Pharmacol. 1988;94(3):458–465.
- Frawley KL, Carpenter Totoni S, Bae Y, et al. A comparison of potential azide antidotes in a mouse model. Chem Res Toxicol. 2020;33(2):594–603.
- Łopaciński B, Kołacinski Z, Winnicka R. Sodium azide–clinical course of the poisoning and treatment. Przegl Lek. 2007;64(4-5):326–330.
- Meatherall R, Palatnick W. Convenient headspace gas chromatographic determination of azide in blood and plasma. J Anal Toxicol. 2009;33(8):525–531.
- Bartecka-Mino K, Schiel H, Holzer A, et al. editors. Hydroxocobalamin: an antidote for sodium azide poisoning? Clinical toxicology. USA (NY): Informa Healthcare; 2014.
- Anusiem A, Beetlestone J, Irvine D, Reactivity differences between haemoglobins. Part VIII. The thermodynamics of the reaction of human methaemoglobins a and C with fluoride, thiocyanate, and cyanide ions. An interpretation of enthalpy changes in terms of hydration. J Chem Soc A. 1968:960–968.
- Abbanat RA, Smith RP. The influence of methemoglobinemia on the lethality of some toxic anions: i. Azide. Toxicol Appl Pharmacol. 1964;6(5):576–583.
- Rochelle LG, Morana SJ, Kruszyna H, et al. Interactions between hydroxocobalamin and nitric oxide (NO): evidence for a redox reaction between NO and reduced cobalamin and reversible NO binding to oxidized cobalamin. J Pharmacol Exp Ther. 1995;275(1):48–52.
- Sharma VS, Pilz RB, Boss GR, et al. Reactions of nitric oxide with vitamin B12 and its precursor. Cobinamide. Biochem. 2003;42(29):8900–8908.
- Firth R, Hill H, Pratt J, et al. The chemistry of vitamin B 12. Part XI. Some further formation constants. J Chem Soc, A. 1969;:381–386.
- Broderick KE, Potluri P, Zhuang S, et al. Cyanide detoxification by the cobalamin precursor cobinamide. Exp Biol Med. 2006;231(5):641–649.
- Hayward G, Hill H, Pratt J, et al. The chemistry of vitamin B 12. Part IV. The thermodynamic trans-effect. J Chem Soc. 1196;1965:6485–6493.
- Chang S, Tat J, China SP, et al. Cobinamide is a strong and versatile antioxidant that overcomes oxidative stress in cells, flies, and diabetic mice. PNAS Nexus. 2022;1(4):pgac191.
- Broderick KE, Singh V, Zhuang S, et al. Nitric oxide scavenging by the cobalamin precursor cobinamide. J Biol Chem. 2005;280(10):8678–8685.
- Salnikov DS, Makarov SV, van Eldik R, et al. Kinetics and mechanism of the reaction of hydrogen sulfide with diaquacobinamide in aqueous solution. Eur J Inorg Chem. 2014;2014(25):4123–4133.
- Nims RW, Cook JC, Krishna MC, et al. Colorimetric assays for nitric oxide and nitrogen oxide species formed from nitric oxide stock solutions and donor compounds. Methods Enzymol. 1996;268:93–105.
- Dyer, JE. Azide, sodium. In: Olson KR, editor. Poisoning & drug overdose. 6 ed. New York (NY): The McGraw-Hill Companies; 2012.
- Redza-Dutordoir M, Averill-Bates DA. Activation of apoptosis signalling pathways by reactive oxygen species. Biochim Biophys Acta. 2016;1863(12):2977–2992.
- Praekunatham H, Garrett KK, Bae Y, et al. A cobalt schiff-base complex as a putative therapeutic for azide poisoning. Chem Res Toxicol. 2020;33(2):333–342.
- Schwinn DA, McIntyre RW, Reves JG. Isoflurane-induced vasodilation: role of the alpha-adrenergic nervous system. Anesth Analg. 1990; 71(5):451–459.
- Constantinides C, Mean R, Janssen BJ. Effects of isoflurane anesthesia on the cardiovascular function of the C57BL/6 mouse. Ilar J. 2011;52(3):e21-31.