Ment, US Government Printing Office, Washington 7. Gilchrist HL (1928) Comparative study of World War casualties from gas along with other weapons. Chemical Warfare College, Edgewood Arsenal, MD, US Government Printing Workplace, Washington eight. Craighill MD, Morse RE (1922) A digest of reports concerning the toxic effect of phosgene on man along with the laboratory animal, EAMRD-5. Medical Study Division, Edgewood Arsenal, MD, May possibly 1922 9. Jugg B (2016) Chapter four: toxicology and treatment of phosgene induced lung injury in concerns in toxicology No. 26, chemical warfare toxicology, vol 1: fundamental elements. Worek F, Jenner J, Thiermann H (eds). London, The Royal Society of Chemistry 2016. Published by the Royal Society of Chemistry. http:www.rsc.org10. Romano JR Jr, Romano JR, Salem H, Lukey BR, Lukey BJ (2007) Harry salem chemical warfare agents: chemistry, pharmacology, toxicology, and therapeutics, 2nd edn. CRC Press, Boca Raton. ISBN 978-1-4200-4661-8 11. Szinicz L (2005) History of chemical and biological warfare agents. Toxicology 214:16781 12. Sommerville DR, Bray JJ, Reutter-Christy SA, Jablonski RE, Shelly EE (2016) Evaluation and assessment of chlorine mammalian lethality information plus the development of a human estimate R-1 (No. CBRNIAC-SS3-628). Aberdeen, Battelle Eastern Science and Technologies Center 13. Sommerville DR (2016) Allometric modeling of mammalian cyanogen chloride inhalation lethality, chapter 9. In: Worek F, Jenner J, Thiermann H (eds) Chemical warfare toxicology, problems in toxicology, vol 26. Royal Society of Chemistry, Cambridge, pp 26406 14. Moore S, Gates M (1946) Chapter 3: phosgene. In: Renshaw B (ed) Summary technical report of division 9, NRDC, Vol 1: chemical warfare agents and related chemical troubles, parts 1, NRDC-DIV-9-VOL1-PT1-2. Office of Scientific Research and Improvement, National Defense Analysis Committee, Washington1946. AD# 234270 15. Reutter SA, Sommerville DR, Miller LL (2003) Spiperone Neuronal Signaling Critique and recommendations for human toxicity estimates for FM 3-11.9, ECBC-TR-349. US Army Edgewood Chemical Biological Center, Critique and Assessment of Phosgene Mammalian Lethality Information along with the Improvement of a Human Estimate, Proving Ground, MD, September 2003. As cited by (1) United states Army, Possible Military ChemicalBiological Agents and Compounds, Field Manual 31.9. Fort Monroe, VA, US Army Education and Doctrine Command, January 2005 16. White CW, Martin JG (2010) Chlorine gas inhalation human clinical proof of toxicity and practical experience in animal models. Proc Am Thorac Soc 7:25763 17. Li W, Rosenbruch M, Pauluhn J (2015) Effect of PEEP on phosgeneinduced lung edema: pilot study on dogs utilizing protective ventilation approaches. Exp Toxicol Pathol 67:10916 18. Summerhill EM, Hoyle GW, Jordt SE, Jugg BJ, Martin JG, Matalon S, Patterson SE, Prezant DJ, Sciuto AM, Svendsen ER, White CW, Veress LA (2017) ATS terrorism and inhalational disasters section with the environmental, occupational, and 5-HT2B Receptors Inhibitors MedChemExpress population well being assembly. An Official American Thoracic Society Workshop report: chemical inhalational disasters: biology of lung injury, improvement of novel therapeutics, and health-related preparedness. Ann Am Thorac Soc. 2017. doi: 10.1513 AnnalsATS.201704-297WS. [Epub ahead of print] 19. Grainge C, Brown R, Jugg BJ, Smith AJ, Mann TM, Jenner J, Rice P, Parkhouse DA (2009) Early remedy with nebulised salbutamol worsens physiological measures and doesn’t increase survival following phosgene induced acute lung injury. J R Army Med Corps 155:10509.