In the event of a large-scale chemical release in the UK decontamination of ambulant casualties would be undertaken by the Fire and Rescue Service (FRS). The aim of this study was to track the movement of volunteer casualties at two mass decontamination field exercises using passive Radio Frequency Identification tags and detection mats that were placed at pre-defined locations. The exercise data were then used to inform a computer model of the FRS component of the mass decontamination process. Having removed all clothing and having showered, the re-dressing (termed re-robing) of casualties was found to be a bottleneck in the mass decontamination process during both exercises. Computer simulations showed that increasing the capacity of each lane of the re-robe section to accommodate 10 rather than five casualties would be optimal in general, but that a capacity of 15 might be required to accommodate vulnerable individuals. If the duration of the shower was decreased from three minutes to one minute then a per lane re-robe capacity of 20 might be necessary to maximise the throughput of casualties. In conclusion, one practical enhancement to the FRS response may be to provide at least one additional re-robe section per mass decontamination unit.
References
[1]
Okumura, T.; Suzuki, K.; Fukuda, A.; Kohama, A.; Takasu, N.; Ishimatsu, S.; Hinohara, S. The Tokyo subway sarin attack: Disaster management. Part 1: Community emergency response. Acad. Emerg. Med. 1998, 5, 613–617, doi:10.1111/j.1553-2712.1998.tb02470.x.
[2]
Nakajima, T.; Sato, S.; Morita, H.; Yanagisawa, N. Sarin poisoning of a rescue team in the Matsumoto sarin incident in Japan. Occup. Environ. Med. 1997, 54, 697–701, doi:10.1136/oem.54.10.697.
[3]
Bertazzi, P.A.; Bernucci, I.; Brambilla, G.; Consonni, D.; Pesatori, A.C. The Seveso studies on early and long-term effects of dioxin exposure: A review. Environ. Health Perspect. 1998, 106 Suppl. 2, 625–633.
[4]
Consonni, D.; Pesatori, A.C.; Zocchetti, C.; Sindaco, R.; D’Oro, L.C.; Rubagotti, M.; Bertazzi, P.A. Mortality in a population exposed to dioxin after the Seveso, Italy, accident in 1976: 25 years of follow-up. Am. J. Epidemiol. 2008, 167, 847–858, doi:10.1093/aje/kwm371.
[5]
Broughton, E. The Bhopal disaster and its aftermath: A review. Environ. Health 2005.
[6]
Sharma, D.C. Bhopal: 20 years on. Lancet 2005, 365, 111–112, doi:10.1016/S0140-6736(05)17722-8.
[7]
Biddinger, P.D.; Savoia, E.; Massin-Short, S.B.; Preston, J.; Stoto, M.A. Public health emergency preparedness exercises: Lessons learned. Public Health Rep. 2010, 125 Suppl. 5, 100–106.
[8]
Hupert, N.; Mushlin, A.I.; Callahan, M.A. Modeling the public health response to bioterrorism: Using discrete event simulation to design antibiotic distribution centers. Med. Decis. Making 2002, 22, S17–S25, doi:10.1177/027298902237709.
[9]
Washington, M.L. Evaluating the capability and cost of a mass influenza and pneumococcal vaccination clinic via computer simulation. Med. Decis. Making 2009, 29, 414–423, doi:10.1177/0272989X09333126.
[10]
Albores, P.; Shaw, D. Government preparedness: Using simulation to prepare for a terrorist attack. Comput. Operat. Res. 2008, 35, 1924–1943, doi:10.1016/j.cor.2006.09.021.
[11]
Department for Communities and Local Government. Fire and Emergencies: Resilience. Available online: http://www.communities.gov.uk/fire/resilience/ (accessed on 12 October 2012).
[12]
National Ambulance Resilience Unit. HART Programme. Available online: http://naru.org.uk/naru-work-activities/naru-work-activities-capability-deliverables-hart-programme/ (accessed on 12 October 2012).
[13]
Carter, H.; Drury, J.; Rubin, G.J.; Williams, R.; Aml?t, R. Public Experiences of Mass Casualty Decontamination. Biosecur. Bioterror. 2012, 10, 280–289, doi:10.1089/bsp.2012.0013.
R Development Core Team. Reference. In R: A Language and Environment for Statistical Computing; R Foundation for Statistical Computing: Vienna, Austria, 2008.
[16]
Edwards, N.A.; Caldicott, D.G.E.; Eliseo, T.; Pearce, A. Truth hurts—Hard lessons from Australia’s largest mass casualty exercise with contaminated patients. Emerg. Med. Australas. 2006, 18, 185–195, doi:10.1111/j.1742-6723.2006.00827.x.
