References
- Pinheiro PS, Koning AbuZayd K, Del Ponte C, Report of the Independent International Commission of Inquiry on the Syrian Arab Republic: UN Human Rights Council – Thirty-sixth session – Agenda item 4 – Human rights situations that require the Council’s attention; 11–29 September 2017, 1–32.
- Mew EJ, Padmanathan P, Konradsen F, et al. The global burden of fatal self-poisoning with pesticides 2006–15: systematic review. J Affect Disord. 2017;219:93–104.
- Marrs TC. Organophosphate poisoning. Pharmacol Ther. 1993;58:51–66.
- Kwong TC. Organophosphate pesticides: biochemistry and clinical toxicology. Ther Drug Monit. 2002;24:144–149.
- Holmstedt B. Pharmacology of organophosphorus cholinesterase inhibitors. Pharmacol Rev. 1959;11:567688.
- Hulse EJ, Davies JOJ, Simpson AJ, et al. Respiratory complications of organophosphorus nerve agent and insecticide poisoning. Implications for respiratory and critical care. Am J Respir Crit Care Med. 2014;190:1342–1354.
- Ben Abraham R, Rudick V, Weinbroum AA. Practical guidelines for acute care of victims of bioterrorism: Conventional injuries and concomitant nerve agent intoxication. Anesthesiology 2002;97:989–1004.
- White SM. Chemical and biological weapons. Implications for anaesthesia and intensive care. Br J Anaesth. 2002;89:306–324.
- Cosar A, Kenar L. An anesthesiological approach to nerve agent victims. Mil Med. 2006;171:7–11.
- Ben Abraham R, Weinbroum AA, Rudick V, et al. Perioperative care of children with nerve agent intoxication. Paediatr Anaesth. 2001;11:643–649.
- Weinbroum AA, Rudick V, Paret G, et al. Anaesthesia and critical care considerations in nerve agent warfare trauma casualties. Resuscitation. 2000;47:113–123.
- Dorandeu F, Mikler JR, Thiermann H, et al. Swine models in the design of more effective medical countermeasures against organophosphorus poisoning. Toxicology. 2007;233:128–144.
- Drexler B, Antkowiak B, Thiermann H, et al. Atropine increases sevoflurane potency in cortical but not spinal networks during cholinergic overstimulation. Toxicology. 2010;268:98–103.
- Drexler B, Antkowiak B, Thiermann H, et al. Interactions between atropine and etomidate in cortical and spinal networks during cholinergic crisis. Toxicol Lett. 2010;198:342–347.
- Weimer I, Worek F, Seeger T, et al. Anesthetic actions of thiopental remain largely unaffected during cholinergic overstimulation in cultured cortical networks. Toxicol Lett. 2016;244:129–135.
- Drexler B, Zinser S, Seeger T, et al. Anaesthetic potency of diazepam is resistant to cholinergic overstimulation. Toxicol Lett. 2011;206:84–88.
- Grasshoff C, Drexler B, Antkowiak B. Effects of cholinergic overstimulation on isoflurane potency and efficacy in cortical and spinal networks. Toxicology. 2007;229:206–213.
- Grasshoff C, Drexler B, Hentschke H, et al. Cholinergic modulation of sevoflurane potency in cortical and spinal networks in vitro. Anesthesiology. 2007;106:1147–1155.
- Hudetz AG, Wood JD, Kampine JP. Cholinergic reversal of isoflurane anesthesia in rats as measured by cross-approximate entropy of the electroencephalogram. Anesthesiology. 2003;99:1125–1131.
- Meuret P, Backman SB, Bonhomme V, et al. Physostigmine reverses propofol-induced unconsciousness and attenuation of the auditory steady state response and bispectral index in human volunteers. Anesthesiology. 2000;93:708–717.
- Conley JD, The Interaction of Chemical Agents and Therapeutic Compounds with Drugs used During Anaesthesia. 2001.
- Haitsma JJ, Lachmann B, Papadakos PJ. Additives in intravenous anesthesia modulate pulmonary inflammation in a model of LPS-induced respiratory distress. Acta Anaesthesiol Scand. 2009;53:176–182.
- Brookes ZLS, Brown NJ, Reilly CS. Differential effects of intravenous anaesthetic agents on the response of rat mesenteric microcirculation in vivo after haemorrhage. Br J Anaesth. 2002;88:255–263.
- Brookes ZLS, Reilly CS, Lawton BK, et al. Intravenous anesthesia inhibits leukocyte-endothelial interactions and expression of CD11b after hemorrhage. Shock. 2006;25:492–499.
- Brookes ZLS, Brown NJ, Reilly CS. Response of the rat cremaster microcirculation to hemorrhage in vivo: differential effects of intravenous anesthetic agents. Shock. 2002;18:542–548.
- Flecknell P, Laboratory animal anaesthesia. 4th ed. Oxford: Elsevier/Academic Press; 2016. eng.
- Yagmurdur H, Ayyildiz A, Karaguzel E, et al. The preventive effects of thiopental and propofol on testicular ischemia-reperfusion injury. Acta Anaesthesiol Scand. 2006;50:1238–1243.
- Henke J, Haberstroh J, Sager M, et al. Schmerztherapie bei Versuchstieren: Fachinformation aus dem Ausschuss für Anästhesie der GV-SOLAS in Zusammenarbeit mit dem Arbeitskreis 4 in der TVT Arbeitskreis 4 in der Tierärztlichen Vereinigung für Tierschutz; 22.05. 2015.
- Houze P, Pronzola L, Kayouka M, et al. Ventilatory effects of low-dose paraoxon result from central muscarinic effects. Toxicol. Appl. Pharmacol. 2008;233:186–192.
- Zhang Y, Laster MJ, Eger EI, et al. Blockade of acetylcholine receptors does not change the dose of etomidate required to produce immobility in rats. Anesth. Analg. 2007;104:850–852.
- Dawson RM. Review of oximes available for treatment of nerve agent poisoning. J Appl Toxicol. 1994;14:317–331.
- Myhrer T, Enger S, Mariussen E, et al. Two medical therapies very effective shortly after high levels of soman poisoning in rats, but only one with universal utility. Toxicology. 2013;314:221–228.
- Myhrer T, Mariussen E, Enger S, et al. Capacities of metabotropic glutamate modulators in counteracting soman-induced seizures in rats. Eur J Pharmacol. 2013;718:253–260.
- Wille T, Neumaier K, Koller M, et al. Single treatment of VX poisoned guinea pigs with the phosphotriesterase mutant C23AL: intraosseous versus intravenous injection. Toxicol Lett. 2016;258:198–206.
- Löscher W, Rogawski MA. How theories evolved concerning the mechanism of action of barbiturates. Epilepsia. 2012;53: 12–25.
- Trapani G, Altomare C, Sanna E, et al. Propofol in anesthesia. Mechanism of action, structure-activity relationships, and drug delivery. Curr Med Chem. 2000;7:249–271.
- Garcia PS, Kolesky SE, Jenkins A. General anesthetic actions on GABA(A) receptors. Curr Neuropharmacol. 2010;8:2–9.
- Hashimoto T, Shu H, Kuriyama K. Muscarinic M1 receptor mediated inhibition of GABA release from rat cerebral cortex. Neurochem Int. 1994;24:389–394.
- Kotani Y, Shimazawa M, Yoshimura S, et al. The experimental and clinical pharmacology of propofol, an anesthetic agent with neuroprotective properties. CNS Neurosci Therap. 2008;14:95–106.
- Weber M, Motin L, Gaul S, et al. Intravenous anaesthetics inhibit nicotinic acetylcholine receptor-mediated currents and Ca2+ transients in rat intracardiac ganglion neurons. Br J Pharmacol. 2009;144:98–107.
- Haeseler G, Leuwer M. High-affinity block of voltage-operated rat IIA neuronal sodium channels by 2,6 di-tert-butylphenol, a propofol analogue. Eur J Anaesthesiol. 2005;20:220–224.
- McDonough JH, Shih T-M, Atropine and other anticholinergic drugs. In: Sidell FR, editor. Chemical warfare agents: toxicology and treatment. Chichester: John Wiley & Sons Ltd; 2007. p. 287–304.
- Namba T. Cholinesterase inhibition by organophosphorus compounds and its clinical effects. Bull World Health Organ. 1971;44:289307.
- Marrs TC, Toxicology of organophosphate nerve agents. In: Sidell FR, editor. Chemical warfare agents: toxicology and treatment. Chichester: John Wiley & Sons Ltd; 2007. p. 191–221.
- Neef JH, de Jordaan KM, Porsius AJ. The effects of paraoxon on blood pressure in the anaesthetized and in the conscious rat. Br J Pharmacol. 1982;77:223–232.
- Clement JG, Mills P, Brockway B. Use of telemetry to record body temperature and activity in mice. J Pharmacol Methods. 1989;21:129–140.
- Wodey E, Chonow L, Beneux X, et al. Haemodynamic effects of propofol vs thiopental in infants: an echocardiographic study. Br J Anaesth. 1999;82:516–520.
- Eddleston M, Chowdhury FR. Pharmacological treatment of organophosphorus insecticide poisoning: the old and the (possible) new. Br J Clin Pharmacol. 2016;81:462–470.