Section 4 - Clinical Considerations
Published online by Cambridge University Press: 09 January 2020
- Type
- Chapter
- Information
- Field HospitalsA Comprehensive Guide to Preparation and Operation, pp. 119 - 280Publisher: Cambridge University PressPrint publication year: 2020
References
References
World Health Organization (2007). Mass casualty management systems: strategies and guidelines for building health sector capacity. Health Action in Crises, Injuries and Violence Prevention. http://www.who.int/hac/techguidance/MCM_inside_Jul07.pdfGoogle Scholar
GreenIII, WG, McGinnes, SR (2006). Thoughts on the higher order taxonomy of disaster. Notes on the science of extreme situations, paper no. 7. https://www.researchgate.net/profile/Walter_Green_Iii/publication/241053862_thoughts_on_the_higher_order_taxonomy_of_disasters/links/593af7540f7e9b33170df543/thoughts-on-the-higher-order-taxonomy-of-disasters.pdfGoogle Scholar
Burkle, FM Jr, Greenough, PG. Impact of public health emergencies on modern disaster taxonomy, planning, and response. Disaster Medicine and Public Health Preparedness 2008: 2(3): 192–9.CrossRefGoogle ScholarPubMed
WHO–PAHO Guidelines for the use of foreign field hospitals in the aftermath of sudden-impact disasters (2003). International meeting: Hospitals in Disasters: Handle with Care, San Salvador, El Salvador. http://www.who.int/hac/techguidance/pht/FieldHospitalsFolleto.pdfGoogle Scholar
Norton, I, von Schreeb, J, Aitken, P, Herard, P, Lajolo, C. Classification and minimum standards for foreign medical teams in sudden onset disasters. Geneva: World Health Organization; 2013.Google Scholar
World Health Organization. Humanitarian Health Action. Emergency Medical teams. http://www.who.int/hac/techguidance/preparedness/emergency_medical_teams/enGoogle Scholar
Klein, KR, Burkle, FM Jr, Swienton, R, et al. Qualitative analysis of surveyed emergency responders and the identified factors that affect first stage of primary triage decision-making of mass casualty incidents. PLOS Currents 2016: 19: 8.Google Scholar
Federal Interagency Committee on EMS (2011). National Implementation of the Model Uniform Core Criteria for Mass Casualty Incident Triage. A Concept Paper for FICEMS consideration. https://www.ems.gov/pdf/2011/December/10-MUCC_Options_Paper_Final.pdfGoogle Scholar
Benson, M, Koenig, KL, Schultz, CH. Disaster triage: START, then SAVE – a new method of dynamic triage for victims of a catastrophic earthquake. Prehospital and Disaster Medicine 1996: 11(2): 117–24.CrossRefGoogle Scholar
Burkle, FM. Jr Triage. In Antosia, RE, Cahill, JD (eds.), Handbook of bioterrorism and disaster medicine. New York: Springer Science; 2006: 12.Google Scholar
Emergency war surgery. Fourth United States revision, Falls Church, Virginia. Borden Institute, US Army Medical department Center and School, Office of the Surgeon General; 2013.Google Scholar
Merin, O. The evolution of surgical humanitarian missions. In Roth, R, Frost, EAM, Gevirtz, C, Atcheson, C (eds.), The role of anesthesiology in global health, a comprehensive guide. Springer Science+Business Media; 2015.Google Scholar
Merin, O, Miskin, IN, Lin, G, et al. Triage in mass-casualty events: the Haitian experience. Prehospital and Disaster Medicine 2011: 26(5): 386–90.CrossRefGoogle ScholarPubMed
Merin, O, Ash, N, Levy, G, et al. The Israeli field hospital in Haiti – ethical dilemmas in early disaster response. The New England Journal of Medicine 2010: 362(11): e38.Google Scholar
Klein, KR, Pepe, PE, Burkle, FM, et al. Evolving need for alternative triage management in public health emergencies: a Hurricane Katrina case study. Disaster Medicine and Public Health Preparedness 2008: 2 Suppl 1: S40–4.CrossRefGoogle ScholarPubMed
Klein, KR, Nagel, NE. Mass medical evacuation: Hurricane Katrina and nursing experiences at the New Orleans airport. Disaster Management & Response 2007: 5(2): 56–61.CrossRefGoogle ScholarPubMed
Koenig, KL, Dinerman, N, Kuehl, AE. Disaster nomenclature – a functional impact approach: the PICE system. Academic Emergency Medicine 1996: 3(7): 723–7.CrossRefGoogle ScholarPubMed
Winslow, GR. Triage and justice. Berkeley: University of California Press; 1982: 1–23.Google Scholar
Domres, B, Koch, M, et al. Ethics and triage. Prehospital and Disaster Medicine 2001: 16(1): 53–8.CrossRefGoogle ScholarPubMed
Raynaud, L, Borne, M, Coste, S, et al. Triage protocol: both undertriage and overtriage need to be evaluated. The Journal of Trauma and Acute Care Surgery 2010: 69(4): 998.CrossRefGoogle ScholarPubMed
World Medical Association (Stockholm, Sweden 1994, revised South Africa 2006). Statement on Medical Ethics in the Event of Disasters. Forty-sixth WMA General Assembly. https://www.wma.net/policies-post/wma-statement-on-medical-ethics-in-the-event-of-disasters/Google Scholar
Sasser, SM, Hunt, RC, Faul, M, et al. Guidelines for field triage of injured patients. MMWR Recommendations and Reports 2012: 61: 1–20.Google ScholarPubMed
Davis, T, Dinh, M, Roncal, S, et al. Prospective evaluation of a two-tiered trauma activation protocol in an Australian major trauma reference hospital. Injury 2010: 41: 470–74.Google Scholar
Cook, CH, Muscarella, P, Praba, AC, et al. Reducing overtriage without compromising outcomes in trauma patients. The Archives of Surgery 2001: 136:752–6.CrossRefGoogle ScholarPubMed
Mohan, D, Rosengart, MR, Farris, C, et al. Assessing the feasibility of the American College of Surgeons’ benchmarks for the triage of trauma patients. The Archives of Surgery 2011: 146(7): 786–92.Google Scholar
Newgard, CD, Zive, D, Holmes, JF, et al. A multisite assessment of the American College of Surgeons Committee on Trauma field triage decision scheme for identifying seriously injured children and adults. Journal of the American College of Surgeons 2011: 213(6): 709–21.CrossRefGoogle ScholarPubMed
Rapsang, AG, Shyam, DC. Scoring systems of severity in patients with multiple trauma. Cirugía Española 2015: 93(4): 213–21.Google Scholar
O’Laughlin, DT, Hick, JL. Ethical issues in resource triage. Respiratory Care 2008: 53(2): 190–7.Google ScholarPubMed
Society of Critical Care Medicine Ethics Committee. Consensus statement on the triage of critically ill patients. JAMA 1994: 271: 1200–3.Google Scholar
Rosedale, K, Smith, ZA, Davies, H. The effectiveness of the South African triage score (SATS) in a rural emergency department. South African Medical Journal 2011: 101(8): 37–40.Google Scholar
Mullan, PC, Torrey, SB, Chandra, A. Reduced overtriage and undertriage with a new triage system in an urban accident and emergency department in Botswana: a cohort study. Emergency Medicine Journal 2014: 31(5): 356–60.CrossRefGoogle Scholar
Hick, JL, Hanfling, D, Cantrill, SV. Allocating scarce resources in disasters: emergency department principles. Annals of Emergency Medicine 2012: 59(3): 177–87.CrossRefGoogle ScholarPubMed
Altevogt, BM, Stroud, C, Hanson, SL, et al. (2009) Guidance for establishing crisis standards of care for use in disaster situations, a letter report. Board on Health Sciences Policy. Institute of Medicine. Washington DC: The National Academies Press; https://www.nap.edu/read/12749/chapter/1#iiGoogle Scholar
Geneva convention I. Wounded and sick in the field. https://ihl-databases.icrc.org/applic/ihl/ihl.nsf/7c4d08d9b287a42141256739003e636b/fe20c3d903ce27e3c125641e004a92f3Google Scholar
Pollaris, G, Sabbe, M. Reverse triage: more than just another method. European Journal of Emergency Medicine 2016: 23(4): 240–7.CrossRefGoogle ScholarPubMed
Burkle, FM. Jr Triage in Burkle, FM Jr, Sanner, PH, Wolcott, BW. Disaster medicine: application for the immediate management and triage of civilian and military disaster victims. Elsevier; 45–80.Google Scholar
Giannou, C, Baldan, M. War surgery: working with limited resources in armed conflict and other situations of violence. Volume 1. Geneva, Switzerland; 2010.Google Scholar
Baker, MS. Creating order from chaos: part II: tactical planning for mass casualty and disaster response at definitive care facilities. Military Medicine 2007: 172(3):237–43.Google ScholarPubMed
Baker, MS. Creating order from chaos: part I: triage, initial care, and tactical considerations in mass casualty and disaster response. Military Medicine 2007: 172(3): 232–6.Google Scholar
Burkle, FM. Jr Operationalizing public health skills to resource poor settings: is this the Achilles heel in the Ebola epidemic campaign? Disaster Medicine and Public Health Preparedness 2015: 9(1): 44–6.Google Scholar
Garner, A. Documentation and tagging of casualties in multiple casualty incidents. Emergency Medicine Journal 2003: 15(5–6): 475–9.Google ScholarPubMed
Nocera, A, Garner, A. An Australian mass casualty incident triage system for the future based upon triage mistakes of the past: the Homebush Triage Standard. ANZ Journal of Surgery 1999: 69(8): 603–8.Google Scholar
Vayer, JS, Ten Eyck, RP, Cowan, ML. New concepts in triage. Annals of Emergency Medicine 1986: 15(8): 927–30.Google Scholar
Martin, M, Izenberg, S, Cole, F. A decade of experience with a selective policy for direct to operating room trauma resuscitations. The American Journal of Surgery 2012: 204(2): 187–92.CrossRefGoogle ScholarPubMed
Sasser, SM, Hunt, RC, Faul, M. Centers for Disease Control and Prevention (CDC). Guidelines for field triage of injured patients: recommendations of the National Expert Panel on Field Triage. MMWR Recommendations and Reports 2011. 2012: 61(RR-1): 1–20.Google Scholar
Burkle, FM. JrTriage and the lost art of decoding vital signs: restoring physiologically based triage skills in complex humanitarian emergencies. Disaster Medicine and Public Health Preparedness 2017: 21: 1–10.Google Scholar
Burkle, FM Jr, Orebaugh, S, Barendse, BR. Emergency medicine in the Persian Gulf War – part 1: preparations for triage and combat casualty care. Annals of Emergency Medicine 1994: 23(4): 742–7.Google ScholarPubMed
Burkle, FM Jr, Newland, C, Orebaugh, S. Emergency medicine in the Persian Gulf War – part 2. triage methodology and lessons learned. Annals of Emergency Medicine 1994: 23(4): 748–54.Google ScholarPubMed
Burkle, FM Jr, Newland, C, Meister, SJ. Emergency medicine in the Persian Gulf War – part 3: battlefield casualties. Annals of Emergency Medicine 1994: 23(4): 755–60.Google Scholar
Burkle, FM. Jr Advances in the methodology of the triage of disaster related casualties. The Japanese Journal of Acute Medicine 1991: 15(13): 1767–72.Google Scholar
Meara, JG, Greenberg, SL. The Lancet commission on global surgery 2030: evidence and solutions for achieving health, welfare and economic development. Surgery 2015: 157(5): 834–5.CrossRefGoogle ScholarPubMed
Gerdin, M, Wladis, A, von Schreeb, J. Foreign field hospitals after the 2010 Haiti earthquake: how good were we? Emergency Medicine Journal 2013: 30(1): e8.Google Scholar
van Berlaer, G, Staes, T, Danschutter, D, et al. Disaster preparedness and response improvement: comparison of the 2010 Haiti earthquake-related diagnoses with baseline medical data. European Journal of Emergency Medicine 2016: (Epub ahead of print).Google Scholar
Herard, P, Boillot, F. Amputation in emergency situations: indications, techniques and Médecins Sans Frontières France’s experience in Haiti. International Orthopaedics 2012: 36(10): 1979–81.Google Scholar
Center for Disaster Philanthropy. Complex Humanitarian Emergencies. http://disasterphilanthropy.org/issue-insight/complex-humanitarian-emergenciesGoogle Scholar
International Committee of the Red Cross. International review of the Red Cross. Volume 93, Number 884, December 2011. https://www.icrc.org/fre/resources/international-review/review-884/review-884-all.pdfGoogle Scholar
Physicians for Human Rights. Anatomy of a crisis: a map of attacks on health care in Syria: findings as of June 2016. https://s3.amazonaws.com/PHR_syria_map/findings.pdfGoogle Scholar
Centers for Disease Control and Prevention. 2014-2016 Ebola Outbreak in West Africa. Online article. https://www.cdc.gov/vhf/ebola/history/2014-2016-outbreak/index.htmlGoogle Scholar
Burkle, FM Jr, Burkle, CN. Triage management, survival, and the law in the age of Ebola. Disaster Medicine and Public Health Preparedness 2015: 9(1): 38–43.Google Scholar
Burkle, FM. Jr Operationalizing public health skills to resource poor settings: is this the Achilles heel in the Ebola epidemic campaign? Disaster Medicine and Public Health Preparedness 2015: 9(1): 44–6.Google Scholar
Senga, M, Pringle, K, Ramsay, A, et al. Sierra Leone Kenema district task force and Kenema Government Hospital. Factors underlying Ebola virus infection among health workers, Kenema, Sierra Leone, 2014–2015. Clinical Infectious Diseases 2016: 63(4): 454–9.Google Scholar
Broadhurst, MJ, Kelly, JD, Miller, A, et al. ReEBOV antigen rapid test kit for point-of-care and laboratory-based testing for Ebola virus disease: a field validation study. Lancet 2015: 386(9996): 867–74.CrossRefGoogle ScholarPubMed
Walker, NF, Brown, CS, Youkee, D, et al. Evaluation of a point-of-care blood test for identification of Ebola virus disease at Ebola holding units, Western Area, Sierra Leone, January to February 2015. Eurosurveillance 2015: 20(12).Google Scholar
Lin, JY, Anderson-Shaw, L. Rationing of resources: ethical issues in disasters and epidemic situations. Prehospital and Disaster Medicine. 2009: 24(3): 215–21.CrossRefGoogle ScholarPubMed
Talmor, D, Jones, AE, Rubinson, L, et al. Simple triage scoring system predicting death and the need for critical care resources for use during epidemics. Critical Care Medicine 2007: 35(5): 1251–6.Google Scholar
Burkle, FM. Jr Population-based triage management in response to surge-capacity requirements during a large-scale bioevent disaster. Academic Emergency Medicine 2006: 13(11): 1118–29.Google Scholar
Pandemic Influenza Triage Tools. Pandemic Influenza Triage Algorithm. http://www.cdc.gov/phpr/healthcare/pan-flu-app/desktop/pita.html.Google Scholar
Roser, M (2016). War and peace after 1945. https://ourworldindata.org/war-and-peace-after-1945Google Scholar
Hegre, H, Sambanis, N. Sensitivity analysis of empirical results on civil war onset. Journal of Conflict Resolution. 2006: 50(4): 508–35.CrossRefGoogle Scholar
Gerhardt, RT, Mabry, RL, De Lorenzo, RA, et al. Mass-casualty-incident management. In fundamentals of combat casualty care in Lenhardt, MK, Savitsky, E, Eastridge, B (eds.), Combat casualty care. Lessons Learned from OEF and OIF. Office of the Surgeon General, Department of the Army, USA; 2012: 110.Google Scholar
Emergency War Surgery, 4th US Revision, Chapter 3 (Mass Casualty & Triage) P.3.1–3.10. https://quizlet.com/123921745/emergency-war-surgery-4th-us-revision-chapter-3-mass-casualty-triage-4-aeromedical-evacuation-flash-cardsGoogle Scholar
Katoch, R, Rajagopalan, S. Warfare injuries: history, triage, transport and field hospital setup in the armed forces. Medical Journal Armed Forces India 2010: 66(4): 304–8.Google Scholar
Gabriel, RA. No more heroes: madness and psychiatry in war. New York: Hill and Wang; 1987.Google Scholar
Military health system echelons of care. In Nessen, SC, Lounsbury, DE, Hetz, SP (eds.), War surgery in Afghanistan and Iraq: a series of cases, 2003–2007. Washington DC: Department of the Army, Office of the Surgeon General, Borden Institute; 2008: 3–6.Google Scholar
Bellamy, Combat trauma overview. In Zaitchuk, R, Grande, CM (eds.), Anesthesia and perioperative care of the combat casualty. Textbook of military medicine. Washington DC: Department of the Army, Office of the Surgeon General, Borden Institute; 1995: 1–42.Google Scholar
Holcomb, JB, Stansbury, LG, Champion, HR, et al. Understanding combat casualty care statistics. The Journal of Trauma and Acute Care Surgery 2006: 60(2): 397–401.Google Scholar
References
Erlich, T, Shina, A, Segal, D, Marom, T, Dagan, D, Glassberg, E. Preparation of medical personnel for an early response humanitarian mission – lessons learned from the Israeli defense forces field hospital in the Philippines. Disaster and Military Medicine 2015: 1: 5.Google Scholar
Wang, J, Ding, H, Lv, Q, et al. 2015 Nepal earthquake: analysis of child rescue and treatment by a field hospital. Disaster Medicine and Public Health Preparedness 2016: 10: 716–9.Google Scholar
van Berlaer, G, Staes, T, Danschutter, D, et al. Disaster preparedness and response improvement: comparison of the 2010 Haiti earthquake-related diagnoses with baseline medical data. European Journal of Emergency Medicine 2016: [Epub ahead of print].CrossRefGoogle Scholar
Centers for Disease Control and Prevention. Post-earthquake injuries treated at a field hospital – Haiti, 2010. Morbidity and Mortality Weekly Report 2011: 59: 1673–7.Google Scholar
Bar-On, E, Abargel, A, Peleg, K, Kreiss, Y. Coping with the challenges of early disaster response: 24 years of field hospital experience after earthquakes. Disaster Medicine and Public Health Preparedness 2013: 7: 491–8.Google Scholar
Farfel, A, Assa, A, Amir, I, et al. Haiti earthquake 2010: a field hospital pediatric perspective. European Journal of Pediatrics 2011: 170: 519–25.Google Scholar
Miskin, IN, Nir-Paz, R, Block, C, et al. Antimicrobial therapy for wound infections after catastrophic earthquakes. The New England Journal of Medicine 2010: 363: 2571–3.Google Scholar
The Center for Disease Dynamics, Economics, and Policy (2015). The state of the world’s antibiotics. Washington DC and New Delhi. Online article. https://cddep.org/wp-content/uploads/2017/06/swa_edits_9.16.pdfGoogle Scholar
Read, DJ, Holian, A, Moller, CC, Poutawera, V. Surgical workload of a foreign medical team after Typhoon Haiyan. ANZ Journal of Surgery 2016: 86: 361–5.Google Scholar
Lin, G, Marom, T, Dagan, D, Merin, O. Ethical and surgical dilemmas in patients with neglected surgical diseases visiting a field hospital in a zone of recent disaster. World Journal of Surgery 2017: 41: 381–5.Google Scholar
Dulski, TM, Basavaraju, SV, Hotz, GA, et al. Factors associated with inpatient mortality in a field hospital following the Haiti earthquake, January–May 2010. American Journal of Disaster Medicine 2011: 6: 275–84.Google Scholar
Redwood-Campbell, LJ, Riddez, L. Post-tsunami medical care: health problems encountered in the International Committee of the Red Cross Hospital in Banda Aceh, Indonesia. Prehospital and Disaster Medicine 2006: 21: s1–7.Google Scholar
Pape, JW, Rouzier, V, Ford, H, Joseph, P, Johnson, WD Jr, Fitzgerald, DW. The GHESKIO field hospital and clinics after the earthquake in Haiti – dispatch 3 from Port-au-Prince. The New England Journal of Medicine 2010: 362: e34.Google Scholar
World Health Organization, Pan American Health Organization. Guidelines for the use of foreign field hospitals in the aftermath of sudden-impact disasters. Area on emergency preparedness and disaster relief. International meeting. Hospitals in disasters – handle with care. San Salvador, El Salvador, 8–10 July 2003.Google Scholar
Merin, O, Ash, N, Levy, G, Schwaber, MJ, Kreiss, Y. The Israeli field hospital in Haiti – ethical dilemmas in early disaster response. The New England Journal of Medicine 2010: 362: e38.Google Scholar
Kreiss, Y, Merin, O, Peleg, K, et al. Early disaster response in Haiti: the Israeli field hospital experience. Annals of Internal Medicine 2010: 153: 45–8.CrossRefGoogle ScholarPubMed
Lichtenberger, P, Miskin, IN, Dickinson, G, et al. Infection control in field hospitals after a natural disaster: lessons learned after the 2010 earthquake in Haiti. Infection Control and Hospital Epidemiology 2010: 31: 951–7.Google Scholar
Zheng, W, Hu, Y, Xin, H. Successful implementation of thirty-five major orthopaedic procedures under poor conditions after the two thousand and fifteen Nepal earthquake. International Orthopaedics 2016: 40: 2469–77.CrossRefGoogle ScholarPubMed
References
Radinsky, K, Davidovich, S, Markovitch, S, eds. WWW 2012. Learning causality for news events prediction 2012: Lyon, France.CrossRefGoogle Scholar
Guha-Sapir, D, Hoyois, P. Estimating populations affected by disasters: a review of methodological issues and research gaps, in Centre for Research on the Epidemiology of Disasters (CRED). Brussels, Belgium: Université catholique de Louvain; ed. 2015.Google Scholar
Nicholls, S, Healy, C. Communication with disaster survivors: towards best practice. Australian Journal of Emergency Management 2008: 23(3).Google Scholar
Emergency field handbook: a guide for UNICEF staff. Geneva, Switzerland: UNICEF; 2005.Google Scholar
Peek, L, Stough, LM. Children with disabilities in the context of disaster: a social vulnerability perspective. Child Development 2010: 81(4): 1260–70.Google Scholar
Bennett, CM, Friel, S. Impacts of climate change on inequities in child health. Children (Basel) 2014: 1(3): 461–73.Google ScholarPubMed
IV Geneva Convention relative to the protection of civilian persons in time of war. 1949: Geneva, Switzerland.Google Scholar
Young, H, Harvey, P. The sphere project: the humanitarian charter and minimum standards in disaster response: introduction. Disasters 2004: 28(2): 99.Google Scholar
Wong, EG, Trelles, M, Dominguez, L, Gupta, S, Burnham, G, Kushner, AL. Surgical skills needed for humanitarian missions in resource-limited settings: common operative procedures performed at Médecins Sans Frontières facilities. Surgery 2014: 156(3): 642–9.Google Scholar
Edwards, MJ, Lustik, M, Burnett, MW, Eichelberger, M. Pediatric inpatient humanitarian care in combat: Iraq and Afghanistan 2002 to 2012. Journal of the American College of Surgeons 2014: 218(5):1018–23.Google Scholar
Idenburg, FJ, van Dongen, TT, Tan, EC, et al. Pediatric surgical care in a Dutch military hospital in Afghanistan. World Journal of Surgery 2015: 39(10): 2413–21.Google Scholar
Kreiss, Y, Merin, O, Peleg, K, et al. Early disaster response in Haiti: the Israeli field hospital experience. Annals of Internal Medicine 2010: 153(1): 45–8.Google Scholar
Farfel, A, Assa, A, Amir, I, et al. Haiti earthquake 2010: a field hospital pediatric perspective. European Journal of Pediatrics 2011: 170(4): 519–25.Google Scholar
Ytzhak, A, Sagi, R, Bader, T, et al. Pediatric ventilation in a disaster: clinical and ethical decision making. Critical Care Medicine 2012: 40(2): 603–7.CrossRefGoogle Scholar
O’Laughlin, DT, Hick, JL. Ethical issues in resource triage. Respiratory Care 2008: 53(2): 190–7; discussion 7–200.Google Scholar
Schultz, CH, Koenig, KL, Noji, EK. A medical disaster response to reduce immediate mortality after an earthquake. The New England Journal of Medicine 1996: 334(7): 438–44.Google Scholar
Hick, JL, Rubinson, L, O’Laughlin, DT, Farmer, JC. Clinical review: allocating ventilators during large-scale disasters – problems, planning, and process. Critical Care 2007: 11(3).Google Scholar
Bar-On, E, Lebel, E, Blumberg, N, Sagi, R, Kreiss, Y, Israel Defense Forces Medical Corps. Pediatric orthopedic injuries following an earthquake: experience in an acute-phase field hospital. The Journal of Trauma and Acute Care Surgery 2013: 74(2): 617–21.CrossRefGoogle Scholar
Bulut, M, Fedakar, R, Akkose, S, Akgoz, S, Ozguc, H, Tokyay, R. Medical experience of a university hospital in Turkey after the 1999 Marmara earthquake. Emergency Medicine Journal 2005: 22(7): 494–8.Google Scholar
Xiang, B, Cheng, W, Liu, J. Triage of pediatric injuries after the 2008 Wen-Chuan earthquake in China. Journal of Pediatric Surgery 2009: 44(12): 2273–7.Google Scholar
Jafari-Rouhi, AH, Sardashti, S, Taghizadieh, A, Soleimanpour, H, Barzegar, M. The Emergency Severity Index, version 4, for pediatric triage: a reliability study in Tabriz Children’s Hospital, Tabriz, Iran. International Journal of Emergency Medicine 2013: 6(1): 36.Google Scholar
Wuerz, RC, Travers, D, Gilboy, N. Implementation and refinement of the emergency severity index. Academic Emergency Medicine 2001: 8(2):170–6.CrossRefGoogle ScholarPubMed
Hohenhaus, SM, Travers, D, Mecham, N. Pediatric triage: a review of emergency education literature. Journal of Emergency Nursing 2008: 34(4): 308–13.CrossRefGoogle ScholarPubMed
Gilboy, N, Tanabe, P, Travers, D, Rosenau, A. Emergency severity index (ESI): a triage tool for emergency department care. Rockville, Maryland, USA: AHRQ – US Department of Health and Human Services; 2011.Google Scholar
Travers, DA, Waller, AE, Katznelson, J, Agans, R. Reliability and validity of the emergency severity index for pediatric triage. Academic Emergency Medicine 2009: 16(9): 843–9.Google Scholar
Trudeau, MO, Baron, E, Herard, P, Labar, AS, Lassalle, X, Teicher, CL, et al. Surgical care of pediatric patients in the humanitarian setting: the Médecins Sans Frontières experience, 2012–2013. JAMA Surgery 2015: 150(11): 1080–5.CrossRefGoogle Scholar
Petrosyan, M, Guner, YS, Emami, CN, Ford, HR. Disparities in the delivery of pediatric trauma care. The Journal of Trauma and Acute Care Surgery 2009: 67(2 Suppl): S114–9.CrossRefGoogle ScholarPubMed
Barthel, ER, Pierce, JR, Goodhue, CJ. Availability of a pediatric trauma center in a disaster surge decreases triage time of the pediatric surge population: a population kinetics model. Theoretical Biology and Medical Modelling 2011: 8: 38.CrossRefGoogle Scholar
Weiser, G, Ilan, U, Mendlovic, J, Bader, T, Shavit, I. Procedural sedation and analgesia in the emergency room of a field hospital after the Nepal earthquake. Emergency Medicine Journal 2016: 33(10): 745–7.CrossRefGoogle ScholarPubMed
Goldenberg, RL, Culhane, JF, Iams, JD, Romero, R. Epidemiology and causes of preterm birth. The Lancet 2008: 371(9606): 75–84.Google Scholar
Bar-Dayan, Y, Beard, P, Mankuta, D, et al. An earthquake disaster in Turkey: an overview of the experience of the Israeli Defence Forces Field Hospital in Adapazari. Disasters 2000: 24(3): 262–70.CrossRefGoogle ScholarPubMed
Pinkert, M, Dar, S, Goldberg, D, et al. Lessons learned from an obstetrics and gynecology field hospital response to natural disasters. Obstetrics & Gynecology 2013: 122(3): 532–6.Google Scholar
Dvoyris, V, Kreiss, Y, Bader, T. Treatment capabilities of field hospitals at war and mass-casualty disasters, in Wolfson, N (ed.), Orthopedics in disasters: orthopedic injuries in natural disasters and mass casualty events. Berlin, Heidelberg: Springer-Verlag; 2016: 37–46.Google Scholar
References
Shrime, MG, Sleemi, A, Thulasiraj, RD. Charitable platforms in global surgery: a systematic review of their effectiveness, sustainability, and role in training. World Journal of Surgery 2015: 39: 10–20.Google Scholar
Myles, P, Haller, G. Global distribution of access to surgical services. The Lancet 2010: 376 (9746): 1027–8.Google Scholar
Funk, LM, Weiser, TG, Berry, WR, et al. Global operating theatre distribution and pulse oximetry supply: an estimation from reported data. The Lancet 2010: 376(9746): 1055–61.Google Scholar
Mock, C, Cherian, M, Juillard, C, et al. Developing priorities for addressing surgical condition globally: furthering the link between surgery and public health policy. World Journal of Surgery 2010: 34: 381–5.Google Scholar
Marck, R, Huijing, M, Vest, D, et al. Early outcome of facial reconstructive surgery abroad: a comparative study. European Journal of Plastic Surgery 2010: 33: 193–7.Google Scholar
Huijing, MA, Marck, KW, Combes, J. Facial reconstruction in the developing world: a complicated matter. British Journal of Oral and Maxillofacial Surgery 2011: 49: 292.Google Scholar
International Federation of the Red Cross and Red Crescent Societies. Emergency response units. Online article. http://www.ifrc.org/eruGoogle Scholar
The many victims of war: indirect conflict deaths. Global burden of armed violence (2008). Geneva Declaration Secretariat. Chapter 2. http://www.genevadeclaration.org/fileadmin/docs/Global-Burden-of-Armed-Violence-full-report.pdfGoogle Scholar
Nott, DM, Veen, H, Matthew, P. Damage control in the austere environment. The Bulletin of the Royal College of Surgeons of England 2015: 96(3): 82–3.Google Scholar
Hayward-Karlsson, J, Jeffrey, S, Kerr, A, Schmidt, H. Hospitals for war-wounded. Chapter 3.2, The admission sheet used in ICRC hospitals, and Chapter 4.2, The operating theatre. 2005: 46: 113–16.Google Scholar
Coupland, RM, Samnegaard, HO. Effect of type and transfer of conventional weapons on civilian injuries: retrospective analysis of prospective data from Red Cross hospitals. The British Medical Journal 1999: 319: 410–2.Google Scholar
Guha-Sapir, D, Rodriguez-Llanes, JM, Hicks, MH, et al. Civilian deaths from weapons used in the Syrian conflict. The British Medical Journal 2015: 351: h4736.CrossRefGoogle ScholarPubMed
Black, I (2016). The Guardian. Report on Syria conflict finds 11.5% of population killed or injured. Online article. https://www.theguardian.com/world/2016/feb/11/report-on-syria-conflict-finds-115-of-population-killed-or-injuredGoogle Scholar
Trelles, M, Dominguez, L, Tayler-Smith, K, et al. Providing surgery in a war-torn context: the Médecins Sans Frontières experience in Syria. Conflict and Health 2015.Google Scholar
Torno, RR (2016). A legacy of 50 years of war: the failure of state development in South Sudan since independence. Theories of development. http://www.academia.edu/20373682/A_Legacy_of_50_Years_of_War_The_Failure_of_State_Development_in_South_Sudan_since_independenceGoogle Scholar
Acerra, JR, Iskyan, K, Qureshi, ZA, Sharma, RK. Rebuilding the health care system in Afghanistan: an overview of primary care and emergency services. International Journal of Emergency Medicine 2009: 2: 77–82.Google Scholar
Chu, K, Trelles, M, Ford, N. Rethinking surgical care in conflict. The Lancet 2010: 375: 262–3.Google Scholar
Sirwardhana, C, Wickramage, K. Conflict, forced displacement and health in Sri Lanka: a review of the research landscape. Conflict and Health 2014: 8: 22.Google Scholar
Devakumar, D, Birch, M, Rubenstein, LS, et al. Child health in Syria: recognising the lasting effects of warfare on health. Conflict and Health 2015: 9: 34.Google Scholar
Chu, KM, Ford, NP, Trelles, M. Providing surgical care in Somalia: a model of task shifting. Conflict and Health 2011: 5: 12.CrossRefGoogle Scholar
Ratnayake, R, Degomme, O, Roberts, B, Spiegel, P. Conflict and health: seven years of advancing science in humanitarian crises. Conflict and Health 2014: 8(1): 1.Google Scholar
Burnham, G, Hoe, C, Hung, YW, et al. Perceptions and utilization of primary health care services in Iraq: findings from a national household survey. International Health and Human Rights 2011: 11:15.CrossRefGoogle ScholarPubMed
Mannion, SJ, Chaloner, E. Principles of war surgery. The British Medical Journal 2005: 330: 1498–500.Google Scholar
Delauche, MC, Blackwell, N, Le Perff, H, et al. A prospective study of the outcome of patients with limb trauma following the Haitian earthquake in 2010 at one- and two-year (the SuTra2 study). PLOS Currents 2013.Google Scholar
Norton, I, von Schreeb, J, Aitken, P, Herard, P, Lajolo, C. Classification and Minimum Standards for Foreign Medical Teams in Sudden Onset Disasters. World Health Organization. 2013. Website. http://www.who.int/hac/global_health_cluster/fmt_guidelines_september2013.pdfGoogle Scholar
References
Wong, EG, Dominguez, L, Trelles, M, et al. Operative trauma in low-resource settings: The experience of Médecins Sans Frontières in environments of conflict, postconflict, and disaster. Surgery 2015: 157(5): 850–6.Google Scholar
Lord, JM, Midwinter, MJ, Chen, YF, et al. The systemic immune response to trauma: an overview of pathophysiology and treatment. The Lancet 2014: 384: 1455–65.Google Scholar
Wilmore, DW. Metabolic response to severe surgical illness: overview. World Journal of Surgery 2000: 24(6): 705–11.Google Scholar
Malchow, RJ, Black, IH. The evolution of pain management in the critically ill trauma patient: emerging concepts from the global war on terrorism. Critical Care Medicine 2008: 36(7 Suppl): S346–57.Google Scholar
Demling, RH. Nutrition, anabolism, and the wound healing process: an overview.World Journal of Plastic Surgery 2009: 9: 65–94.Google Scholar
Hospenthal, DR, Green, AD, Crouch, HK, et al. Infection prevention and control in deployed military medical treatment facilities. The Journal of Trauma and Acute Care Surgery 2011: 71(2 Suppl 2): S290–8.Google Scholar
World Health Organization. Antimicrobial Resistance. Online article. https://www.who.int/antimicrobial-resistance/enGoogle Scholar
Penn-Barwell, JG, Murray, CK, Wenke, JC. Early antibiotics and debridement independently reduce infection in an open fracture model. The Journal of Bone and Joint Surgery 2012: 94(1): 107–12.Google Scholar
Dick, EA, Ballard, M, Alwan-Walker, H, et al. Bomb blast imaging: bringing order to chaos. Clinical Radiology 2018: 73(6): 509–16.Google Scholar
Hodgetts, TJ, Mahoney, PF, Kirkman, E. Damage control resuscitation. Journal of the Royal Army Medical Corps 2007: 153(4): 299–300.Google Scholar
Malhotra, AK, Goldberg, S, Graham, J, et al. Open extremity fractures: impact of delay in operative debridement and irrigation. The Journal of Trauma and Acute Care Surgery 2014: 76(5): 1201–7.Google Scholar
Enninghorst, N, McDougall, D, Hunt, JJ, Balogh, ZJ. Open tibia fractures: timely debridement leaves injury severity as the only determinant of poor outcome. The Journal of Trauma and Acute Care Surgery 2011: 70(2): 352–6.CrossRefGoogle ScholarPubMed
Prodromidis, AD, Charalambous, CP. The 6-hour rule for surgical debridement of open tibial fractures: a systematic review and meta-analysis of infection and nonunion rates. Journal of Orthopaedic Trauma 2016: 30(7):397–402.Google Scholar
Boulton, AJ, Lewis, CT, Naumann, DN, Midwinter, MJ. Prehospital haemostatic dressings for trauma: a systematic review. Emergency Medicine Journal 2018: 35(7): 449–57.Google Scholar
World Health Organization. Surgical Safety Checklist. Online article. https://www.who.int/patientsafety/safesurgery/checklist/enGoogle Scholar
Arul, GS, Pugh, HE, Mercer, SJ, Midwinter, MJ. Human factors in decision making in major trauma in Camp Bastion, Afghanistan. Annals of the Royal College of Surgeons of England 2015: 97(4): 262–8.Google Scholar
Debakey, ME, Simeone, FA. Battle injuries of the arteries in World War II: an analysis of 2471 cases. Annals of Surgery 1946: 123(4): 534–79.Google Scholar
Hughes, CW. Arterial repair during the Korean war. Annals of Surgery 1958: 147(7): 555–61.Google Scholar
Rasmussen, TE, Clouse, WD, Jenkins, DH, et al. The use of temporary vascular shunts as a damage control adjunct in the management of wartime vascular injury. The Journal of Trauma and Acute Care Surgery 2006: 61(1): 8–12.CrossRefGoogle ScholarPubMed
Bowyer, GW, Cooper, GJ, Rice, P. Small fragment wounds: biophysics and pathophysiology. The Journal of Trauma and Acute Care Surgery 1996: 40(3 Suppl): S159–64.Google Scholar
Sassoon, A, Riehl, J, Rich, A, et al. Muscle viability revisited: are we removing normal muscle? A critical evaluation of dogmatic debridement. Journal of Orthopaedic Trauma 2016: 30(1): 17–21.Google Scholar
Bhandari, M, Jeray, KJ, Petrisor, BA, et al. A trial of wound irrigation in the initial management of open fracture wounds. The New England Journal of Medicine 2015: 373(27): 2629–41.Google Scholar
Hassinger, SM, Harding, G, Wongworawat, MD. High-pressure pulsatile lavage propagates bacteria into soft tissue. Clinical Orthopaedics and Related Research 2005: 439: 27–31.Google Scholar
Crowley, DJ, Kanakaris, NK, Giannoudis, PV. Irrigation of the wounds in open fractures. The Journal of Bone and Joint Surgery 2007: 89(5): 580–5.Google Scholar
Penn-Barwell, JG, Murray, CK, Wenke, JC. Comparison of the antimicrobial effect of chlorhexidine and saline for irrigating a contaminated open fracture model. Journal of Orthopaedic Trauma 2012: 26(12): 728–32.Google Scholar
Fries, CA, Ayalew, Y, Penn-Barwell, JG, et al. Prospective randomised controlled trial of nanocrystalline silver dressing versus plain gauze as the initial post-debridement management of military wounds on wound microbiology and healing. Injury 2014: 45(7): 1111–6.Google Scholar
Mansoor, J, Ellahi, I, Junaid, Z, Habib, A, Ilyas, U. Clinical evaluation of improvised gauze-based negative pressure wound therapy in military wounds. International Wound Journal 2015: 12(5): 559–63.Google Scholar
Penn-Barwell, JG, Fries, CA, Street, L, Jeffery, S. Use of topical negative pressure in British servicemen with combat wounds. Eplasty 2011: 11: e35.Google Scholar
Hajibandeh, S, Hajibandeh, S, Idehen, N. Meta-analysis of the effect of tertiary survey on missed injury rate in trauma patients. Injury 2015: 46(12): 2474–82.Google Scholar
Serebrakian, AT, Pickrell, BB, Varon, DE, et al. Meta-analysis and systematic review of skin graft donor-site dressings with future guidelines. Plastic and Reconstructive Surgery – Global Open 2018: 6(9): e1928.Google Scholar
Wallenberg, L. Effect of early mobilisation after skin grafting to lower limbs. Scandinavian Journal of Plastic and Reconstructive Surgery and Hand Surgery 1999: 33(4): 411–3.Google Scholar
Yin, Y, Zhang, R, Li, S, Guo, J, Hou, Z, Zhang, Y. Negative-pressure therapy versus conventional therapy on split-thickness skin graft: a systematic review and meta-analysis. International Journal of Surgery 2018: 50: 43–48.Google Scholar
Hurlow, J, Bowler, PG. Clinical experience with wound biofilm and management: a case series. Ostomy Wound Management 2009: 55(4): 38–49.Google Scholar
D’Alleyrand, JC, Manson, TT, Dancy, L, et al. Is time to flap coverage of open tibial fractures an independent predictor of flap-related complications? Journal of Orthopaedic Trauma 2014: 28 (5): 288–93.Google Scholar
Klem, C, Sniezek, JC, Moore, B, et al. Microvascular reconstructive surgery in Operations Iraqi and Enduring Freedom: the US military experience performing free flaps in a combat zone. The Journal of Trauma and Acute Care Surgery 2013: 75(2 Suppl 2): S228–32.Google Scholar
Khor, WS, Langer, MF, Wong, R, et al. Improving outcomes in tendon repair: a critical look at the evidence for flexor tendon repair and rehabilitation. Plastic and Reconstructive Surgery 2016: 138(6): 1045e–58e.Google Scholar
Trehan, SK, Model, Z, Lee, SK. Nerve repair and nerve grafting. Hand Clinics 2016: 32(2): 119–25.Google Scholar
References
von Schreeb, J, Riddez, L, Samnegård, H, Rosling, H. Foreign field hospitals in the recent sudden-onset disasters in Iran, Haiti, Indonesia, and Pakistan. Prehospital and Disaster Medicine 2008: 23: 144–51.Google Scholar
Kirsch, T, Sauer, L, Guha-Sapir, D. Analysis of the international and US response to the Haiti earthquake: recommendations for change. Disaster Medicine and Public Health Preparedness 2012: 6: 200–8.Google Scholar
Bar-On, E, Abargel, A, Peleg, K, Kreiss, Y. Coping with the challenges of early disaster response: 24 years of field hospital experience after earthquakes. Disaster Medicine and Public Health Preparedness 2013: 7: 491–8.Google Scholar
Amital, H, Alkan, ML, Adler, J, Kriess, I, Levi, Y. Israeli Defense Forces Medical Corps humanitarian mission for Kosovo’s refugees. Prehospital and Disaster Medicine 2003: 18(4): 301–5.Google Scholar
Leaning, J, Guha-Sapir, D. Natural disasters, armed conflict, and public health. The New England Journal of Medicine 2013: 369(19): 1836–42.Google Scholar
Bar-Dayan, Y, Leiba, A, Beard, P, et al. A multidisciplinary field hospital as a substitute for medical hospital care in the aftermath of an earthquake: the experience of the Israeli Defense Forces Field Hospital in Duzce, Turkey, 1999. Prehospital and Disaster Medicine 2005: 20(2): 103–6.Google Scholar
Norton, I, von Schreeb, J, Aitken, P, Herard, P, Lajolo, C. Classification and minimum standards for foreign medical teams in sudden onset disasters. Geneva: World Health Organization; 2013.Google Scholar
Kreiss, Y, Merin, O, Peleg, K, et al. Early disaster response in Haiti: the Israeli field hospital experience. Annals of Internal Medicine 2010: 153(1): 45–8.Google Scholar
Clover, AJ, Jemec, B, Redmond, AD. The extent of soft tissue and musculoskeletal injuries after earthquakes; describing a role for reconstructive surgeons in an emergency response. World Journal of Surgery 2014: 38: 2543–50.Google Scholar
Doocy, S, Daniels, A, Packer, C, Dick, A, Kirsch, TD. The human impact of earthquakes: a historical review of events 1980–2009 and systematic literature review. PLOS Currents 2013: 16: 5.Google Scholar
Doocy, S, Daniels, A, Murray, S, Kirsch, TD. The human impact of floods: a historical review of events 1980–2009 and systematic literature review. PLOS Currents 2013: 16: 5.Google Scholar
Doocy, S, Daniels, A, Dick, A, Kirsch, TD. The human impact of tsunamis: a historical review of events 1900–2009 and systematic literature review. PLOS Currents 2013: 16: 5.Google Scholar
Doocy, S, Dick, A, Daniels, A, Kirsch, TD. The human impact of tropical cyclones: a historical review of events 1980–2009 and systematic literature review. PLOS Currents 2013: 16: 5.Google Scholar
Murray, CJ, King, G, Lopez, AD, Tomijima, N, Krug, EG. Armed conflict as a public health problem. The BMJ 2002:324(7333): 346–9.Google Scholar
Gosselin, RA, War injuries, trauma and disaster relief. Techniques in Orphopaedics 2005: 120: 97–108.Google Scholar
Ley, PF, Hamdan, TA, Baldan, M, Gosselin, RA. Orthopedics in conflicts and disasters, in Gosselin, RA, Spiegel, DA, Foltz, M (eds.), Global orthopedics, caring for musculoskeletal conditions and injuries in austere settings. New York: Springer; 2014: 493–504.Google Scholar
Schoenfeld, AJ, Belmont, PJ. Traumatic combat injuries, in Cameron, KL, Owens, BD (eds.), Musculoskeletal injuries in the military. New York: Springer; 2016.Google Scholar
DePalma, RG, Burris, DG, Champion, HR, Hodgson, MJ. Blast injuries. The New England Journal of Medicine 2005: 352(13): 1335–42.Google Scholar
Teicher, CL, Alberti, K, Porten, K, et al. Médecins Sans Frontières experience in orthopedic surgery in postearthquake Haiti in 2010. Prehospital and Disaster Medicine 2014: 29(1): 21–6.Google Scholar
Hotz, GA, Moyenda, ZB, Bitar, J, et al. Developing a trauma critical care and rehab hospital in Haiti: a year after the earthquake. American Journal of Disaster Medicine. 2012: 7(4): 273–9.Google Scholar
Walk, RM, Donahue, TF, Stockinger, Z, et al. Haitian earthquake relief: disaster response aboard the USNS comfort. Disaster Medicine and Public Health Preparedness 2012: 6(4): 370–7.Google Scholar
Sechriest, VF second, Wing, V, Walker, GJ, et al. Healthcare delivery aboard US Navy hospital ships following earthquake disasters: implications for future disaster relief missions. American Journal of Disaster Medicine 2012: 7(4): 281–94.Google Scholar
Bar-On, E, Blumberg, N, Joshi, A, et al. Orthopedic activity in field hospitals following earthquakes in Nepal and Haiti: variability in injuries encountered and collaboration with local available resources drive optimal response. World Journal of Surgery 2016: 40(9): 2117–22.Google Scholar
Missair, A, Pretto, EA, Visan, A, et al. A matter of life or limb? A review of traumatic injury patterns and anesthesia techniques for disaster relief after major earthquakes. Anesthesia & Analgesia 2013: 117(4): 934–41.Google Scholar
Morelli, I, Sabbadini, MG, Bortolin, M. Orthopedic injuries and their treatment in children during earthquakes: a systematic review. Prehospital and Disaster Medicine 2015: 30(5): 478–85.Google Scholar
Herard, P, Boillot, F. Quality orthopaedic care in sudden-onset disasters: suggestions from Médecins Sans Frontières-France. International Orthopaedics 2016: 40(3): 435–8.Google Scholar
Bar-On, E, Lebel, E, Kreiss, Y, et al. Orthopaedic management in a mega mass casualty situation. The Israel Defence Forces Field Hospital in Haiti following the January 2010 earthquake. Injury 2011: 42(10): 1053–9.Google Scholar
Blumberg, N, Lebel, E, Merin, O, Levy, G, Bar-On, E. Skeletal injuries sustained during the Haiti earthquake of 2010: a radiographic analysis of the casualties admitted to the Israel Defense Forces field hospital. European Journal of Trauma and Emergency Surgery 2013: 39(2): 117–22.Google Scholar
Awais, S, Saeed, A. Study of the severity of musculoskeletal injuries and triage during the 2005 Pakistan earthquake. International Orthopaedics 2013: 37(8): 1443–7.Google Scholar
Elmi, A, Ganjpour Sales, J, Tabrizi, A, Soleimanpour, J, Mohseni, MA. Orthopedic injuries following the East Azerbaijan earthquake. Trauma Monthly 2013: 18(1): 3–7.Google Scholar
Guha-Sapir, D, Vos, F. Earthquakes, an epidemiologic perspective on patterns and trends, in Spence, R, So, E, Scawthorn, C (eds.), Human casualties in earthquakes. New York: Springer; 2011: 13–24.Google Scholar
Helminen, M, Saarela, E, Salmela, J. Characterisation of patients treated at the Red Cross field hospital in Kashmir during the first three weeks of operation. Emergency Medical Journal 2006: 23: 654–6.Google Scholar
Phalkey, R, Reinhardt, JD, Marx, M. Injury epidemiology after the 2001 Gujarat earthquake in India: a retrospective analysis of injuries treated at a rural hospital in the Kutch district immediately after the disaster. Global Health Action 2011: 4: 7196.Google Scholar
Kaim Khani, GM, Baig, A, Humail, M, Memon, M, Quarashi, MA. Musculoskeletal injuries among victims of the Battagram, Pakistan earthquake in October 2005. Prehospital and Disaster Medicine 2012: 27(5): 489–91.Google Scholar
Mulvey, JM, Awan, SU, Qadri, AA, Maqsood, MA. Profile of injuries arising from the 2005 Kashmir earthquake: the first 72h. Injury 2008: 39: 554–60.Google Scholar
Ramirez, M and Peek-Asa, C. Epidemiology of traumatic injuries from earthquakes. Epidemiologic Review 2005: 27: 47–55.Google Scholar
Roy, N, Shah, H, Patel, V, Coughlin, RR. The Gujarat earthquake (2001) experience in a seismically unprepared area: community hospital medical response. Prehospital and Disaster Medicine 2002: 17: 186–95.Google Scholar
Sami, F, Ali, F, Zaidi, SH, Rehman, H, Ahmad, T, Siddiqui, MI. The October 2005 earthquake in Northern Pakistan: patterns of injuries in victims brought to the Emergency Relief Hospital, Doraha, Mansehra. Prehospital and Disaster Medicine 2009: 24: 535–9.Google Scholar
Sever, MS, Vanholder, R. Management of crush victims in mass disasters: highlights from recently published recommendations. Clinical Journal of the American Society of Nephrology 2013: 8(2): 328–35.Google Scholar
Bartal, C, Zeller, L, Miskin, I, et al. Crush syndrome: saving more lives in disasters: lessons learned from the early-response phase in Haiti. Archives of Internal Medicine 2011: 171(7): 694–6.Google Scholar
Matsuzawa, G, Sano, H, Ohnuma, H, et al. Patient trends in orthopedic traumas and related disorders after tsunami caused by the Great East Japan Earthquake: an experience in the primary referral medical center. Journal of Orthopaedic Science 2016: 21(4): 507–11.Google Scholar
Lehavi, A, Meroz, Y, Maryanovsky, M, et al. Role of regional anaesthesia in disaster medicine: field hospital experience after the 2015 Nepal Earthquake. European Journal of Anaesthesiology 2016: 33(5): 312–3.Google Scholar
Farfel, A, Assa, A, Amir, I, et al. Haiti earthquake 2010: a field hospital pediatric perspective. European Journal of Pediatrics 2011: 170(4): 519–25.Google Scholar
Burnweit, C, Stylianos, S. Disaster response in a pediatric field hospital: lessons learned in Haiti. Journal of Pediatric Surgery 2011: 46(6): 1131–9.Google Scholar
Jobe, K. Disaster relief in post-earthquake Haiti: unintended consequences of humanitarian volunteerism. Travel Medicine and Infectious Disease 2011: 9(1): 1–5.Google Scholar
Sonshine, DB, Caldwell, A, Gosselin, RA, Born, CT, Coughlin, RR. Critically assessing the Haiti earthquake response and the barriers to quality orthopaedic care. Clinical Orthopaedics and Related Research 2012: 470(10): 2895–904.Google Scholar
Dewo, P, Magetsari, R, Busscher, HJ, van Horn, JR, Verkerke, GJ. Treating natural disaster victims is dealing with shortages: an orthopaedics perspective. Technology and Health Care 2008: 16(4): 255–9.Google Scholar
Alvarado, O, Trelles, M, Tayler-Smith, K, et al. Orthopaedic surgery in natural disaster and conflict settings: how can quality care be ensured? International Orthopaedics 2015: 39(10): 1901–8.Google Scholar
Dhar, SA, Bhat, MI, Mustafa, A, et al. Damage control orthopaedic in patients with delayed referral to a tertiary care center: experience from a place where Composite Trauma Centers do not exist. Journal of Trauma Management & Outcomes 2008: 29(2) 2.Google Scholar
Bertol, MJ, Van den Bergh, R, Trelles Centurion, M, et al. Saving life and limb: limb salvage using external fixation, a multi-centre review of orthopaedic surgical activities in Médecins Sans Frontières. International Orthopaedics 2014: 38(8): 1555–61.Google Scholar
Li, W, Qian, J, Liu, X, et al. Management of severe crush injury in a front-line tent ICU after 2008 Wenchuan earthquake in China: an experience with 32 cases. Critical Care 2009: 13(6): R178.Google Scholar
Reis, ND, Michaelson, M. Crush injury to the lower limbs. Treatment of the local injury. Journal of Bone and Joint Surgery (Am) 1986: 68: 414–8.Google Scholar
Gerdin, M, Wladis, A, von Schreeb, J. Surgical management of closed crush injury-induced compartment syndrome after earthquakes in resource-scarce settings. The Journal of Trauma and Acute Care Surgery 2012: 14.Google Scholar
Murphy, RA, Ronat, JB, Fakhri, RM, et al. Multidrug-resistant chronic osteomyelitis complicating war injury in Iraqi civilians. The Journal of Trauma and Acute Care Surgery 2011: 71(1): 252–4.Google Scholar
Teicher, CL, Ronat, JB, Fakhri, RM, et al. Antimicrobial drug-resistant bacteria isolated from Syrian war-injured patients, August 2011-March 2013. Emerging Infectious Diseases 2014: 20(11): 1949–51.Google Scholar
Gilbert, DN, Sanford, JP, Kutscher, E, et al. Microbiologic study of wound infections in tornado casualties. Archives of Environmental & Occupational Health 1973: 26(3): 125–30.Google Scholar
Marra, AR, Valle Martino, MD, Ribas, MR, et al. Microbiological findings from the Haiti disaster. Travel Medicine and Infectious Disease 2012: 10(3): 157–61.Google Scholar
Lichtenberger, P, Miskin, IN, Dickinson, G, et al. Infection control in field hospitals after a natural disaster: lessons learned after the 2010 earthquake in Haiti. Infection Control & Hospital Epidemiology 2010: 31(9): 951–7.Google Scholar
Miskin, IN, Nir-Paz, R, Block, C, et al. Antimicrobial therapy for wound infections after catastrophic earthquakes. The New England Journal of Medicine 2010: 363(26): 2571–3.Google Scholar
Yun, HC, Murray, CK, Nelson, KJ, Bosse, MJ. Infection after orthopaedic trauma: prevention and treatment. Journal of Orthopaedic Trauma 2016: 30(Suppl 3) S21–6.Google Scholar
Wang, Y, Lu, B, Hao, P, Yan, MN, Dai, KR. Comprehensive treatment for gas gangrene of the limbs in earthquakes. Chinese Medical Journal (Engl) 2013: 126(20): 3833–9.Google Scholar
Leininger, BE1, Rasmussen, TE, Smith, DL, Jenkins, DH, Coppola, CJ. Experience with wound VAC and delayed primary closure of contaminated soft tissue injuries in Iraq. Trauma 2006: 61(5): 1207–11.Google Scholar
Edsander-Nord, Å. Wound complications from the tsunami disaster: a reminder of indications for delayed closure. European Journal of Trauma and Emergency Surgery 2008: 34(5): 457–64.Google Scholar
Phillips, J, Zirkle, LG, Gosselin, RA. Achieving locked intramedullary fixation of long bone fractures: technology for the developing world. International Orthopaedics 2012: 36(10): 2007–13.Google Scholar
Lebel, E, Blumberg, N, Gill, A, et al. External fixator frames as interim damage control for limb injuries: experience in the 2010 Haiti earthquake. The Journal of Trauma and Acute Care Surgery 2011: 71(6): E128–31.Google Scholar
Bar-On, E, Lebel, E, Blumberg, N, Sagi, R, Kreiss, Y. Pediatric orthopedic injuries following an earthquake: experience in an acute-phase field hospital. The Journal of Trauma and Acute Care Surgery 2013: 74(2): 617–21.Google Scholar
Boillot, F, Herard, P. External fixators and sudden-onset disasters: Médecins Sans Frontières experience. International Orthopaedics 2014: 38(8): 1551–4.Google Scholar
Awais, S, Saeed, A, Asad, Ch. Use of external fixators for damage-control orthopaedics in natural disasters like the 2005 Pakistan earthquake. International Orthopaedics (SICOT) 2014: 38: 1563–8.Google Scholar
Clover, AJ, Rannan-Eliya, S, Saeed, W, et al. Experience of an orthoplastic limb salvage team after the Haiti earthquake: analysis of caseload and early outcomes. Plastic and Reconstructive Surgery 2011: 127(6): 2373–80.Google Scholar
Scalea, TM, Boswell, SA, Scott, JD, et al. External fixation as a bridge to intramedullary nailing for patients with multiple injuries and with femur fractures: damage control. Journal of Orthopaedic Trauma 2000: 48(4): 613–23.Google Scholar
Dhar, SA, Mutt, MF, Hussain, A, et al. Management of lower limb fractures in polytrauma patients with delayed referral in a mass disaster. The role of the Ilizarov method in conversion osteosynthesis. Injury 2008: 39: 947–51.Google Scholar
Bosse, MJ, MacKenzie, EJ, Kellam, JF, et al. A prospective evaluation of the clinical utility of the lower-extremity injury-severity scores. Journal of Bone and Joint Surgery 2001: 83(1): 3–14.Google Scholar
Teicher, C, Foote, NL, Al Ani, AM, et al. The short musculoskeletal functional assessment (SMFA) score amongst surgical patients with reconstructive lower limb injuries in war wounded civilians. Injury 2014: 45(12): 1996–2001.Google Scholar
Herard, P, Boillot, F. Amputation in emergency situations: indications, techniques and Médecins Sans Frontières France’s experience in Haiti. International Orthopaedics 2012: 36(10): 1979–81.Google Scholar
Knowlton, LM, Gosney, JE, Chackungal, S, et al. Consensus statements regarding the multidisciplinary care of limb amputation patients in disasters or humanitarian emergencies: report of the 2011 Humanitarian Action Summit Surgical Working Group on amputations following disasters or conflict. Prehospital and Disaster Medicine 2011: 26(6): 438–48.CrossRefGoogle ScholarPubMed
Macintyre, A, Kramer, EB, Petinaux, B, et al. Extreme measures: field amputation on the living and dismemberment of the deceased to extricate individuals entrapped in collapsed structures. Disaster Medicine and Public Health Preparedness 2012: 6(4): 428–35.Google Scholar
Delauche, MC, Blackwell, N, Le Perff, H, et al. A prospective study of the outcome of patients with limb trauma following the Haitian earthquake in 2010 at one- and two-year (the SuTra2 study). PLOS Currents 2013: 5: 5.Google Scholar
Gosselin, RA, Rmith, DG. Amputations, in Gosselin, RA, Spiegel, DA, Foltz, M (eds.), Global orthopedics, caring for musculoskeletal conditions and injuries in austere settings. New York: Springer; 2014: 481–92.Google Scholar
Dailey, SK, Casstevens, EC, Archdeacon, MT, Mamczak, CN, Burgess, AR. Assessment of pelvic fractures resulting from the 2010 Haiti earthquake: opportunities for improved care. The Journal of Trauma and Acute Care Surgery 2014: 76(3): 866–70.Google Scholar
Dong, Z, Yang, Z, Chen, T, et al. Spinal injuries in the Sichuan earthquake. The New England Journal of Medicine 2009: 361: 636–7.Google Scholar
Keshkar, S, Kumar, R, Bharti, BB. Epidemiology and impact of early rehabilitation of spinal trauma after the 2005 earthquake in Kashmir, India. International Orthopaedics 2014: 38(10): 2143–7.Google Scholar
O’Neal, ML, Bahner, R, Ganey, T, Ogden, JA. Limb deficiency osseous overgrowth after amputation in adolescents and children. Journal of Pediatric Orthopaedics 1996: 16(1): 78–84.Google Scholar
Fedorak, GT, Watts, HG, Cuomo, AV, et al. Osteocartilaginous transfer of the proximal part of the fibula for osseous overgrowth in children with congenital or acquired tibial amputation. Journal of Bone and Joint Surgery 2015: 97: 574–81.Google Scholar
Trudeau, MO, Baron, E, Hérard, P, et al. Surgical care of pediatric patients in the humanitarian setting: the Médecins Sans Frontières experience, 2012–2013. JAMA Surgery 2015: 150(11): 1080–5.Google Scholar
Sabzehchian, M, Abolghasemi, H, Radfar, MH, et al. Pediatric trauma at tertiary-level hospitals in the aftermath of the Bam, Iran earthquake. Prehospital and Disaster Medicine. 2006: 21(5): 336–9.Google Scholar
Jacquet, GA, Hansoti, B, Vu, A, Bayram, JD. Earthquake-related injuries in the pediatric population: a systematic review. PLOS Currents. 2013: 27: 5.Google Scholar
Khan, F, Amatya, B, Gosney, J, Rathore, FA, Burkle, FM. Medical rehabilitation in natural disasters: a review. Archives of Physical Medicine and Rehabilitation 2015: 96(9): 1709–27.Google Scholar
Rathore, FA, Gosney, JE, Reinhardt, JD, Haig, AJ, Li, J, DeLisa, JA. Medical rehabilitation after natural disasters: why, when, and how? Archives of Physical Medicine and Rehabilitation. 2012: 93(10): 1875–81.Google Scholar
Iezzoni, L, Ronan, LJ. Disability legacy of the Haitian earthquake. Annals of Internal Medicine 2010: 152: 812–4.Google Scholar
Sheppard, PS, Landry, MD. Lessons from the 2015 earthquake(s) in Nepal: implication for rehabilitation. Disability and Rehabilitation 2016: 38(9): 910–3.Google Scholar
Bartels, SA, VanRooyen, MJ. Medical complications associated with earthquakes. The Lancet 2012: 379(9817): 748–57.Google Scholar
World Health Organization (2016). Emergency medical teams: minimum technical standards and recommendations for rehabilitation. Geneva: Licence: CC BY-NC-SA 3.0 IGO. Website. https://extranet.who.int/emt/guidelines-and-publicationsGoogle Scholar
Gosselin, RA, Gialamas, G, Atkin, DM. Comparing the cost-effectiveness of short orthopedic missions in elective and relief situations in developing countries. World Journal of Surgery 2011: 35(5): 951–5.Google Scholar
Lin, G, Marom, T, Dagan, D, Merin, O. Ethical and surgical dilemmas in patients with neglected surgical diseases visiting a field hospital in a zone of recent disaster. World Journal of Surgery 2016: 19 [Epub ahead of print].Google Scholar
Levy, G, Blumberg, N, Kreiss, Y, Ash, N, Merin, O. Application of information technology within a field hospital deployment following the January 2010 Haiti earthquake disaster. Journal of the American Medical Informatics Association: JAMIA 2010: 17(6): 626–30.Google Scholar
Jafar, AJ, Norton, I, Lecky, F, Redmond, AD. A literature review of medical record keeping by foreign medical teams in sudden onset disasters. Prehospital and Disaster Medicine 2015: 30(2): 216.Google Scholar
Degennaro, V Jr, Degennaro, V Sr, Ginzburg, E. Haiti’s dilemma: how to incorporate foreign health professionals to assist in short-term recovery while capacity building for the future. Journal of Public Health 2011: 33(3): 459–61.Google Scholar
Born, CT, Cullison, TR, Dean, JA, et al. Partnered disaster preparedness: lessons learned from international events. Journal of the American Academy of Orthopaedic Surgeons 2011: 19(Suppl 1): S44–8.Google Scholar
Peleg, K, Kreiss, Y, Ash, N, Lipsky, AM. Optimizing medical response to large-scale disasters: the ad hoc collaboration health care system. Annals of Surgery 2011: 253(2): 421–3.Google Scholar
Abolghasemi, H, Radfar, MH, Khatami, M, et al. International medical response to a natural disaster: lessons learned from the Bam earthquake experience. Prehospital and Disaster Medicine 2006: 21(3): 141–7.Google Scholar
Gerdin, M, Wladis, A, von Schreeb, J. Foreign field hospitals after the 2010 Haiti earthquake: how good were we? Emergency Medicine Journal 2013: 30(1): e8.Google Scholar
Merin, O, Kreiss, Y, Lin, G, Pras, E, Dagan, D. Collaboration in response to disaster: Typhoon Yolanda and an integrative model. The New England Journal of Medicine 2014: 370(13): 1183–4.Google Scholar
Lee, SH, Padilla, M, Lynch, JE, Hargens, AR. Noninvasive measurements of pressure for detecting compartment syndromes. Journal of Orthopaedic Rheumatology. 2013: 1(1): 5.Google Scholar
World Health Organization (2017). Management of limb injuries during disasters and conflicts. Online article. https://extranet.who.int/emt/guidelines-and-publicationsGoogle Scholar
References
Wong, EG, Trelles, M, Dominguez, L, et al. Surgical skills needed for humanitarian missions in resource-limited settings: common operative procedures performed at Médecins Sans Frontières facilities. Surgery 2014: 156(3): 642–9.Google Scholar
Stewart, BT, Trelles, M, Dominguez, L, et al. Surgical burn care by Médecins Sans Frontières-Operations Center Brussels: 2008 to 2014. Journal of Burn Care & Research 2016: 37(6): e516–e24.Google Scholar
Spinella, PC, Borgman, MA, Azarow, KS. Pediatric trauma in an austere combat environment. Critical Care Medicine 2008: 36(7 Suppl): S293–6.Google Scholar
Gomez, M, Cartotto, R, Knighton, J, Smith, K, Fish, JS. Improved survival following thermal injury in adult patients treated at a regional burn center. Journal of Burn Care & Research 2008: 29(1): 130–7.Google Scholar
Roberts, MJ, Fox, MA, Hamilton-Davies, C, Dowson, S. The experience of the intensive care unit in a British Army field hospital during the 2003 Gulf conflict. Journal of the Royal Army Medical Corps 2003: 149(4): 284–90.Google Scholar
Alvarado, R, Chung, KK, Cancio, LC, Wolf, SE. Burn resuscitation. Burns 2009: 35: 4–14.CrossRefGoogle ScholarPubMed
Peck, M, Jeng, J, Moghazy, A. Burn resuscitation in the austere environment. Critical Care Clinics 2016: 32(4): 561–5.Google Scholar
Walker, PF, Buehner, MF, Wood, LA, et al. Diagnosis and management of inhalation injury: an updated review. Critical Care 2015: 19: 351.Google Scholar
Wood, FM, Phillips, M, Jovic, T, et al. Water first aid is beneficial in humans post-burn: evidence from a bi-national cohort study. PLOS One 2016: 11(1): e0147259.Google Scholar
Smith, JJ, Scerri, GV, Malyon, AD, Burge, TS. Comparison of serial halving and rule of nines as a pre-hospital assessment tool. Emergency Medicine Journal 2002: 19 (Suppl): A66.Google Scholar
Bacomo, FK, Chung, KK. A primer on burn resuscitation. Journal of Emergencies, Trauma, and Shock 2011: 4(1): 109–13.Google Scholar
Barnes, J, Duffy, A, Hamnett, N, et al. The Mersey burns app: evolving a model of validation. Emergency Medicine Journal 2015: 32(8): 637–41.Google Scholar
Chung, KK, Wolf, SE, Cancio, LC, et al. Resuscitation of severely burned military casualties: fluid begets more fluid. The Journal of Trauma and Acute Care Surgery 2009: 67: 231–7.Google Scholar
Raff, T, Hartmann, B, Germann, G. Early intragastric feeding of seriously burned and long-term ventilated patients: a review of 55 patients. Burns 1997: 23(1): 19–25.Google Scholar
Cartotto, R, Zhou, A. Fluid creep: the pendulum hasn’t swung back yet! Journal of Burn Care & Research 2010: 31 (4): 551–8.Google Scholar
Renz, EM, Cancio, LC, Barillo, DJ, et al. Long range transport of war-related burn casualties. The Journal of Trauma and Acute Care Surgery 2008: 64(2 Suppl): S136–44.Google Scholar
Ong, YS, Samuel, M, Song, C. Meta-analysis of early excision of burns. Burns 2006: 32: 145–50.Google Scholar
References
Carballo, M, Daita, S, Hernandez, M. Impact of the tsunami on healthcare systems. Journal of the Royal Society of Medicine 2005: 98: 390–5.Google Scholar
Reproductive health care, in Public health guide in emergencies. Second edn. The Johns Hopkins and Red Cross Red Crescent; 2008: 136–197Google Scholar
Cooperative for Assistance and Relief Everywhere Inc. Moving from emergency response to comprehensive reproductive health programs: a modular training series. Washington, DC: CARE; 2002.Google Scholar
Bar-Dayan, Y, Beard, P, Mankuta, D, Finestone, A, Wolf, Y, Gruzman, C, et al. An earthquake disaster in Turkey: an overview of the experience of the Israeli Defense Forces field hospital in Adapazari. Disasters 2000: 24: 262–70.Google Scholar
Nour, NN. Maternal health considerations during disaster relief. Expert Review of Obstetrics & Gynecology 2011: 4: 22–7.Google Scholar
Pinkert, M, Dar, S, Goldberg, D, et al. Lessons learned from an obstetrics and gynecology field hospital response to natural disasters. Obstetrics & Gynecology 2013: 122: 532–6.Google Scholar
Weissman, A, Siegler, E, Neiger, R, Jakobi, P, Zimmer, EZ. The influence of increased seismic activity on pregnancy outcome. European Journal of Obstetrics & Gynecology and Reproductive Biology 1989: 31: 233–6.Google Scholar
Sekizuka, N, Sakai, A, Aoyama, K, Kohama, T, Nakahama, Y, Fujita, S, et al. Association between the incidence of premature rupture of membranes in pregnant women and seismic intensity of the Noto Peninsula earthquake. Environmental Health and Preventive Medicine 2010: 15: 292–8.Google Scholar
Tan, CE, Li, HJ, Zhang, XG, Zhang, H, Han, PY, An, Q, et al. The impact of the Wenchuan earthquake on birth outcomes. PLOS One 2009: 4: e8200.Google Scholar
Hibino, Y, Takaki, J, Kambayashi, Y, Hitomi, Y, Sakai, A, Sekizuka, N, et al. Health impact of disaster-related stress on pregnant women living in the affected area of the Noto Peninsula earthquake in Japan. Psychiatry and Clinical Neurosciences 2009: 63: 107–15.Google Scholar
Harville, E, Xiong, X, Buekens, P. Disasters and perinatal health: a systematic review. Obstetrical & Gynecological Survey 2010: 65: 713–28.Google Scholar
Chang, HL, Chang, TC, Lin, TY, Kuo, SS. Psychiatric morbidity and pregnancy outcome in a disaster area of Taiwan 921 earthquake. Psychiatry and Clinical Neurosciences 2002: 56: 139–44.Google Scholar
Merin, O, Ash, N, Levy, G, Schwaber, MJ, Kreiss, Y. The Israeli field hospital in Haiti – ethical dilemmas in early disaster response. The New England Journal of Medicine 2010: 362: e38.Google Scholar
Ytzhak, A, Sagi, R, Bader, T, Assa, A, Farfel, A, Merin, O, et al. Pediatric ventilation in a disaster: clinical and ethical decision making. Critical Care Medicine 2012: 40: 603–7.Google Scholar
Women’s Commission for Refugee Women and Children (WCRWC). Field-friendly guide to integrate emergency obstetric care in humanitarian programs. New York: WCRWC; 2005: 84.Google Scholar
References
Peleg, K, Kreiss, Y, Ash, N, Lipsky, AM. Optimizing medical response to large-scale disasters: the ad hoc collaborative health care system. Annals of Surgery 2011: 253(2): 421–3.Google Scholar
Kreiss, Y, Merin, O, Peleg, K, et al. Early disaster response in Haiti: the Israeli field hospital experience. Annals of Internal Medicine 2010: 153(1): 45–8.Google Scholar
Ray, JM, Lindsay, RW, Kumar, AR. Treatment of earthquake-related craniofacial injuries aboard the USNS Comfort during Operation Unified Response. Plastic and Reconstructive Surgery 2010: 126(6): 2102–8.Google Scholar
Tang, YL, Zhu, GQ, Zhou, H, et al. Analysis of 46 maxillofacial fracture victims in the 2008 Wenchuan, China earthquake. Oral Surgery, Oral Medicine, Oral Pathology, and Oral Radiology 2009: 108(5): 673–8.Google Scholar
Lin, G, Lavon, H, Gelfond, R, Abargel, A, Merin, O. Hard times call for creative solutions: medical improvisations at the Israel Defense Forces Field Hospital in Haiti. American Journal of Disaster Medicine 2010: 5(3): 188–92.Google Scholar
Marom, T, Dagan, D, Weiser, G, et al. Pediatric otolaryngology in a field hospital in the Philippines. International Journal of Pediatric Otorhinolaryngology 2014: 78(5): 807–11.Google Scholar
Lieberthal, AS, Carroll, AE, Chonmaitree, T, et al. The diagnosis and management of acute otitis media. Pediatrics 2013 (3): e964–99.Google Scholar
Marom, T, Segal, D, Erlich, T, Tsumi, E, Merin, O, Lin, G. Ethical and clinical dilemmas in patients with head and neck tumors visiting a field hospital in the Philippines. American Journal of Disaster Medicine 2014: 9(3): 211–19.Google Scholar
References
Doi, H, Kunikata, H, Kato, K, Nakazawa, T. Ophthalmologic examinations in areas of Miyagi Prefecture affected by the great east Japan earthquake. JAMA Ophthalmology 2014: 132(7): 874–6.Google Scholar
Yuki, K, Nakazawa, T, Kurosaka, D, et al. Role of the vision van, a mobile ophthalmic outpatient clinic, in the great east Japan earthquake. Clinical Ophthalmology 2014: 8: 691–6.Google Scholar
Birnbaum, ML, Daily, EK, O’Rourke, AP. Research and evaluations of the health aspects of disasters, part V: epidemiological disaster research. Prehospital and Disaster Medicine 2015: 30(6): 648–56.Google Scholar
Zhong, S, Clark, M, Hou, XY, Zang, YL, Fitzgerald, G. Development of hospital disaster resilience: conceptual framework and potential measurement. Emergency Medicine Journal 2014: 31(11): 930–8.Google Scholar
Born, CT, Briggs, SM, Ciraulo, DL, et al. Disasters and mass casualties: I. General principles of response and management. Journal of the American Academy of Orthopaedic Surgeons 2007: 15(7): 388–96.Google Scholar
Tokuda, Y, Kikuchi, M, Takahashi, O, Stein, GH. Prehospital management of sarin nerve gas terrorism in urban settings: 10 years of progress after the Tokyo subway sarin attack. Resuscitation 2006: 68: 193–202.Google Scholar
Sobaci, G, Akyn, T, Mutlu, FM, Karagul, S, Bayraktar, MZ. Terror-related open-globe injuries: a 10-year review. American Journal of Ophthalmology 2005: 139: 937–9.Google Scholar
Odhiambo, WA, Guthua, SW, Macigo, FG, et al. Maxillofacial injuries caused by terrorist bomb attack in Nairobi, Kenya. International Journal of Oral and Maxillofacial Surgery 2002: 31: 374–7.Google Scholar
Negrel, AD, Thylefors, B. The global impact of eye injuries. Ophthalmic Epidemiology 1998: 5: 143–69.Google Scholar
Mimran, S, Rotem, R. Ocular trauma under the shadow of terror. Insight 2005: 30: 10–2.Google Scholar
Mines, M, Thach, A, Mallonee, S, et al. Ocular injuries sustained by survivors of the Oklahoma City bombing. Ophthalmology 2000: 107(5): 837–43.Google Scholar
Berrios-Torres, SI, Greenko, JA, Phillips, M, Miller, JR, Treadwell, T, Ikeda, RM. World Trade Center rescue worker injury and illness surveillance, New York, 2001. American Journal of Preventive Medicine 2003: 25: 79–87.Google Scholar
Holmes, S, Coombes, A, Rice, S, et al. The role of the maxillofacial surgeon in the initial 48 h following a terrorist attack. British Journal of Oral and Maxillofacial Surgery 2005: 43: 375–82.Google Scholar
Centers for Disease Control and Prevention. Rapid assessment of injuries among survivors of the terrorist attack on the World Trade Center – New York City, September 2001. Morbidity and Mortality Weekly Report 2002: 51: 1–5.Google Scholar
Ari, AB. Eye injuries on the battlefields of Iraq and Afghanistan: public health implications. Optometry 2006: 77: 329–39.Google Scholar
Osaadon, P, Tsumi, E, Pokroy, R, Sheleg, T, Peleg, K. Ocular morbidity in natural disasters: field hospital experience 2010–2015. Eye 2018: 32(11): 1717–22.Google Scholar
Gossman, MD, Roberts, DM, Barr, CC. Ophthalmic aspects of orbital injury. A comprehensive diagnostic and management approach. Clinics in Plastic Surgery 1992: 19: 71–85.Google Scholar
Kuhn, F, Halda, T, Witherspoon, CD, Morris, R, Mester, V. Intraocular foreign bodies: myths and truths. European Journal of Ophthalmology 1996: 6: 464–71.Google Scholar
Manolidis, S, Weeks, BH, Kirby, M, Scarlett, M, Hollier, L. Classification and surgical management of orbital fractures: experience with 111 orbital reconstructions. Journal of Craniofacial Surgery 2002: 13: 726–37, discussion 738.Google Scholar
Roncevic, R, Roncevic, D. Extensive, traumatic fractures of the orbit in war and peace time. Journal of Craniofacial Surgery 1999: 10: 284–300.Google Scholar
Cai, YS, Zhou, GJ. Compressive eye injuries caused by earthquake. Chinese Medical Journal 1983: 96(10): 731–6.Google Scholar
Lubeck, D. Penetrating ocular injuries. Emergency Medicine Clinics of North America 1988: 6(1): 127–46.Google Scholar
Detorakis, ET, Spandidos, DA. Pathogenetic mechanisms and treatment options for ophthalmic pterygium: Trends and perspectives (Review). International Journal of Molecular Medicine 2009: 23: 439–47.Google Scholar
Coroneo, MT. Pterygium as an early indicator of ultraviolet insolation: a hypothesis. British Journal of Ophthalmology 1993: 77: 734–9.Google Scholar
McCarty, CA1, Taylor, HR. A review of the epidemiologic evidence linking ultraviolet radiation and cataracts. Developments in Ophthalmology 2002: 35: 21–31.Google Scholar
Mariotti, SP, Pascolini, D, Rose-Nussbaumer, J. Trachoma: global magnitude of a preventable cause of blindness. British Journal of Ophthalmology 2009: 93(5): 563–8.Google Scholar
Steinsapir, KD, Goldberg, RA. Traumatic optic neuropathy. Survey of Ophthalmology 1994: 38: 487–518.Google Scholar
Larian, B, Wong, B, Crumley, RL, Moeinolmolki, B, Muranaka, E, Keates, RH. Facial trauma and ocular/orbital injury. Journal of Cranio-Maxillofacial Surgery 1999: 5: 15–24.Google Scholar
Merin, O, Nachman, A, Levy, G, Schwaber, MJ, Kreiss, Y. The Israeli field hospital in Haiti – ethical dilemmas in early disaster response. The New England Journal of Medicine 2010: 362: e38.Google Scholar
References
Mellor, AJ. Anaesthesia in austere environments. Journal of the Royal Army Medical Corps 2005: 151: 272–6.Google Scholar
Dobson, MB. Anaesthesia at the district hospital. Second edn. World Health Organization; 2006.Google Scholar
Grathwohl, KW, Venticinque, SG. Organizational characteristics of the austere intensive care unit: the evolution of military trauma and critical care medicine: applications for civilian medical care systems. Critical Care Medicine 2008: 36 (7 Suppl): S275–83.Google Scholar
Bartels, SA, VanRooyen, MJ. Medical complications associated with earthquakes. The Lancet 2012: 379: 748–57.Google Scholar
Wilson, J, Barras, P. Advances in anesthesia delivery in the deployed setting. US Army Medical Department Journal Archives 2016: (2–16): 62–5.Google Scholar
Reynolds, PC, Furukawa, KT. Modern draw-over anesthetic vaporizers used to deliver anesthesia in austere and battlefield conditions. Military Medicine 2003: 168: ii–iii.Google Scholar
Szpisjak, DF, Lamb, CL, Klions, KD. Oxygen consumption with mechanical ventilation in a field anesthesia machine. Anesthesia & Analgesia 2005: 100: 1713–17.Google Scholar
Jiang, J, Xu, H, Liu, H, Yuan, H, Wang, C, Ye, J. Anaesthetic management under field conditions after the 12 May 2008 earthquake in Wenchuan, China. Injury 2010: 41(6): 1–3.Google Scholar
Barras, P, McMaster, J, Grathwohl, K, Blackbourne, L: Total intravenous anesthesia on the battlefield. US Army Medical Department Journal Archives 2009: 68–72.Google Scholar
Mulvey, JM, Qadri, AA, Maqsood, MA. Earthquake injuries and the use of ketamine for surgical procedures: the Kashmir experience. Anaesthesia & Intensive Care 2006: 34: 489–94.Google Scholar
Missair, A, Pretto, E, Visan, A, et al. A matter of life or limb? A review of traumatic injury patterns and anesthesia techniques for disaster relief after major earthquakes. Anesthesia & Analgesia 2013: 117(4): 934–41.Google Scholar
Barrington, MJ, Kluger, R. Ultrasound guidance reduces the risk of local anesthetic systemic toxicity following peripheral nerve block. Regional Anesthesia & Pain Medicine 2013: 38: 289–99.Google Scholar
Jaffer, AK, Campo, RE, Gaski, G, Reyes, M, Gebhard, R et al. An academic center’s delivery of care after the Haitian earthquake. Annals of Internal Medicine 2010: 153(4): 262–5.Google Scholar
Croll, SM, Griffith, SR. Acute and chronic pain on the battlefield: lessons learned from point of injury to the United States. US Army Medical Department Journal Archives 2016: (2 –16): 102–5.Google Scholar
Baker, BC, Buckenmaier, C, Narine, N, et al. Battlefield anesthesia: advances in patient care and pain management. Anesthesiology Clinics 2007: 25: 131–45.Google Scholar
Buckenmaier, C, III, Mahoney, PF, Anton, T, Kwon, N, Polomano, RC. Impact of an acute pain service on pain outcomes with combat-injured soldiers at Camp Bastion, Afghanistan. Pain Medicine 2012: 13(7): 919–26.Google Scholar
References
Richman, A, Shapira, SC, Sharan, Y. Medical response to terror threat. IOS Press; 2010. Published in cooperation with NATO Science for Peace and Security.Google Scholar
Grathwohl, KW, Venticinque, SG. Organizational characteristics of the austere intensive care unit: the evolution of military trauma and critical care medicine; applications for civilian medical care systems. Critical Care Medicine 2008: 36(7 Suppl): S275–83.Google Scholar
Graw, JA, Spies, CD, Kork, F, et al. End-of-life decisions in intensive care medicine – shared decision-making and intensive care unit length of stay. World Journal of Surgery 2015: 39(3): 644–51.Google Scholar
Morgan, CK, Varas, GM, Pedroza, C, et al. Defining the practice of “no escalation of care” in the ICU. Critical Care Medicine 2014: 42(2): 357–61.Google Scholar
Smith, SP, Cosgrove, JF, Driscoll, PJ, et al. A practical approach to events medicine provision. Emergency Medicine Journal 2017: 34(8): 538–42.Google Scholar
Bar-Dayan, Y, Beard, P, Mankuta, D, et al. An earthquake disaster in Turkey: an overview of the experience of the Israeli Defence Forces field hospital in Adapazarı. Disasters 2000: 24(3): 262–70.Google Scholar
D’Amore, AR, Hardin, CK. Air Force expeditionary medical support unit at the Houston floods: use of a military model in civilian disaster response. Military Medicine 2005: 170(2): 103–8.Google Scholar
Abolghasemi, H, Poorheidari, G, Mehrabi, A, et al. Iranian military forces in the Bam earthquake. Military Medicine 2005: 170(10): 859–61.Google Scholar
Bar-On, E, Blumberg, N, Joshi, A, et al. Orthopedic activity in field hospitals following earthquakes in Nepal and Haiti: variability in injuries encountered and collaboration with local available resources drive optimal response. World Journal of Surgery 2016: 40(9): 2117–22.Google Scholar
Glick, Y, Baruch, EN, Tsur, AM, et al. Extending a helping hand: a comparison of Israel Defense Forces Medical Corps humanitarian aid field hospitals. The Israel Medical Association Journal 2016: 18(10): 581–5.Google Scholar
Donabedian, A. The evaluation of medical care programs. The Bulletin of the New York Academy of Medicine 1968: 44(2): 117–24.Google Scholar
Scales, DC, Rubenfeld, GD. The organization of critical care: an evidence-based approach to improving quality. New York: Humana Press; Springer science + Business media; 2014.Google Scholar
Yoo, EJ, Edwards, JD, Dean, ML, et al. Multidisciplinary critical care and intensivist staffing: results of a statewide survey and association with mortality. Journal of Intensive Care Medicine 2016: 31(5): 325–32.Google Scholar
Benner, P, Hooper-Kyriakidis, P, Stannard, D. Clinical wisdom and interventions in acute and critical care. New York. Springer Publishing Company; 2011.Google Scholar
Tawfik, DS, Phibbs, CS, Sexton, JB, et al. Factors associated with provider burnout in the NICU. Pediatrics 2017: 139(5).Google Scholar
Gershengorn, HB, Xu, Y, Chan, CW, et al. The impact of adding a physician assistant to a critical care outreach team. PLOS One 2016: 11(12): e0167959.Google Scholar
Costa, DK, Wallace, DJ, Barnato, AE, et al. Nurse practitioner/physician assistant staffing and critical care mortality. Chest 2014: 146(6): 1566–73.Google Scholar
Høye, S, Severinsson, E. Multicultural family members’ experiences with nurses and the intensive care context: a hermeneutic study. Intensive and Critical Care Nursing 2010: 26(1): 24–32.Google Scholar
Shigeki, K, Satoshi, Y, Tomoyuki, E, et al. Body temperature abnormalities in non-neurological critically ill patients: a review of the literature. Journal of Intensive Care Medicine 2014: 2(1): 14. Published online.Google Scholar
Peres, BD, Lopes, FF, Vincent, JL, et al. Body temperature alterations in the critically ill. Intensive Care Medicine 2004: 30(5): 811–6.Google Scholar
Cardenas-Garcia, J, Mayo, PH. Bedside ultrasonography for the intensivist. Critical Care Clinics 2015: 31(1): 43–66.Google Scholar
Lichtenstein, D, van-Hooland, S, Elbers, P, et al. Ten good reasons to practice ultrasound in critical care. Anaesthesiology Intensive Therapy 2014: 46(5): 323–35.Google Scholar
Prgomet, M, Li, L, Niazkhani, Z, Westbrook, JI, et al. Impact of commercial computerized provider order entry (CPOE) and clinical decision support systems (CDSSs) on medication errors, length of stay, and mortality in intensive care units: a systematic review and meta-analysis. Journal of the American Medical Informatics Association 2017: 24(2): 413–22.Google Scholar
Levy, G, Blumberg, N, Kreiss, Y, et al. Application of information technology within a field hospital deployment following the January 2010 Haiti earthquake disaster. Journal of the American Medical Informatics Association 2010: 17(6): 626–30.Google Scholar
Rybak, M, Huffman, LC, Danielson, PD, et al. Ultraportable oxygen concentrator use in US Army special operations forward area surgery: a proof of concept in multiple environments. Military Medicine 2017: 182(1): e1649–52.Google Scholar
Chiumello, D, Brioni, M. Severe hypoxemia: which strategy to choose. Critical Care 2016: 20(1): 132.Google Scholar
Grathwohl, KW, Venticinque, SG. Organizational characteristics of the austere intensive care unit: the evolution of military trauma and critical care medicine; applications for civilian medical care systems. Critical Care Medicine 2008: 36(7 Suppl): S275–83.Google Scholar
Rice, DH, Kotti, G, Beninati, W. Clinical review: critical care transport and austere critical care. Critical Care 2008: 12(2): 207.Google Scholar
Pankaj, B, Sanjiv, N, Bishnu, P, et al. High prevalence of multidrug resistance in bacterial uropathogens from Kathmandu, Nepal. BMC Research Notes 2012: 5: 38.Google Scholar
Narayan, P, Pooja, M, Hridaya, P, et al. High rates of multidrug resistance among uropathogenic Escherichia coli in children and analyses of ESBL producers from Nepal. Antimicrobial Resistance & Infection Control 2017: 6: 9.Google Scholar
Narayan, P., Subhash, P, Shyam, K, et al. High burden of antimicrobial resistance among gram negative bacteria causing healthcare associated infections in a critical care unit of Nepal. Antimicrobial Resistance & Infection Control 2017: 6: 67.Google Scholar
Meyer-Zehnder, B, Albisser-Schleger, H, Tanner, S, et al. How to introduce medical ethics at the bedside – factors influencing the implementation of an ethical decision-making model. BMC Medical Ethics 2017: 18(1): 16.Google Scholar
Merin, O, Ash, N, Kreiss, Y, et al. The Israeli field hospital in Haiti – ethical dilemmas in early disaster response. The New England Journal of Medicine 2010: 362(11): e38.Google Scholar
References
Lamb, LE, Cox, AT, Fletcher, T, McCourt, AL. Formulating and improving care while mitigating risk in a military Ebola virus disease treatment unit. Journal of the Royal Army Medical Corps 2016: 2–6.Google Scholar
Mosquera, A, Braun, M, Hulett, M, Ryszka, L. US Public health service response to the 2014–2015 Ebola epidemic in West Africa: a nursing perspective. Public Health Nursing 2015: 32(5): 550–4.Google Scholar
Vetter, P, Dayer, J-A, Schibler, M, Allegranzi, B, Brown, D, Calmy, A, et al. The 2014–2015 Ebola outbreak in West Africa: hands on. Antimicrobial Resistance & Infection Control. 2016: 5(1).Google Scholar
Wilson, D. Inside an Ebola treatment unit: a nurse’s report. American Journal of Nursing 2015: 115(12): 28–38.Google Scholar
Lushniak, BD. The hope multipliers: the US public health service in Monrovia. Public Health Reports 2015: 130(6): 562–5.Google Scholar
Toole, MJ, Waldman, RJ. Prevention of excess mortality in refugee and displaced populations in developing countries. JAMA 1990: 263(24): 3296–302.Google Scholar
Watson, JT, Gayer, M, Connolly, MA. Epidemics after natural disasters. Emerging Infectious Diseases 2007: 13(1): 1–510.Google Scholar
Ligon, BL. Infectious diseases that pose specific challenges after natural disasters: a review. Seminars in Pediatric Infectious Diseases 2006: 17(1): 36–45.Google Scholar
Sullivan, SM, McDonald, KW. Post-Hurricane Katrina infection control challenges and the public health role at a mobile field hospital. American Journal of Infection Control 2006: 34(5): E11–12.Google Scholar
Lichtenberger, P, Miskin, IN, Dickinson, G, Schwaber, MJ, Ankol, OE, Zervos, M, et al. Infection control in field hospitals after a natural disaster: lessons learned after the 2010 earthquake in Haiti. Infection Control & Hospital Epidemiology 2010: 31(9): 951–7.Google Scholar
Murray, CK, Yun, HC, Markelz, AE, Okulicz, JF, Vento, TJ, Burgess, TH, et al. Operation united assistance: infectious disease threats to deployed military personnel. Military Medicine 2015: 180(6): 626–51.Google Scholar
Lamontagne, F, et al. Evidence-based guidelines for supportive care of patients with Ebola virus disease. The Lancet 2017: 391(10121): 700–8.Google Scholar
Torabi-Parizi, P, Davey, RT, Jr., Suffredini, AF, Chertow, DS. Ethical and practical considerations in providing critical care to patients with Ebola virus disease. Chest 2015: 147(6): 1460–610.Google Scholar
Hageman, JC, Hazim, C, Wilson, K, Malpiedi, P, Gupta, N, Bennett, S, et al. Infection prevention and control for Ebola in health care settings – West Africa and United States. MMWR Supplements 2016: 65(3): 50–6.Google Scholar
A review of the role of training in WHO Ebola emergency response/Examen du role des formations dispensees dans le cadre de la reponse de l’OMS a la crise Ebola. Weekly Epidemiological Record 2016: 91(181).Google Scholar
Dasaklis, TK, Rachaniotis, N. Epidemics control and logistics operations: a review. International Journal of Production Economics 2012: 139: 393–410.Google Scholar
Guha-Sapir, FV. Earthquakes, an epidemiologic perspective on patterns and trends, in Spence, R, So, E, Scawthorn, C (eds.) Human casualties in earthquakes. New York: Springer; 2011: 13–24.Google Scholar
Bar-On, E, Peleg, K, Kreiss, Y. Coping with the challenges of early disaster response: 24 years of field hospital experience after earthquakes. Disaster Medicine and Public Health Preparedness 2013: 7: 491–8.Google Scholar
Forrester, JD, Hunter, JC, Pillai, SK, Arwady, MA, Ayscue, P, Matanock, A, et al. Cluster of Ebola cases among Liberian and US health care workers in an Ebola treatment unit and adjacent hospital – Liberia, 2014. MMWR Morbidity and Mortality Weekly Report 2014: 63(41): 925–9.Google Scholar
Li, Y, Leung, GM, Tang, JW, et al. Role of ventilation in airborne transmission of infectious agents in the built environment – a multidisciplinary systematic review. Indoor Air 2007: 17: 2–18.Google Scholar
Refugee health – an approach to emergency situations (Médecins Sans Frontières). Hanquet, G (ed.) London and Basingstoke: Macmillan Education Ltd; 1997.Google Scholar
Heymann, DL. American Public Health Association. Control of communicable diseases manual. Twentieth edn. (ed.) 2014.Google Scholar
Spengler, JR, Ervin, ED, Towner, JS, Rollin, PE, Nichol, ST. Perspectives on West Africa Ebola virus disease outbreak, 2013–2016. Emerging Infectious Diseases 2016: 22(6) 956–63.Google Scholar
Laverack, G, Manoncourt, E. Key experiences of community engagement and social mobilization in the Ebola response. Global health promotion 2016: 23(1): 79–82.Google Scholar
Abramowitz, SA, McLean, KE, McKune, SL, Bardosh, KL, Fallah, M, Monger, J, et al. Community-centered responses to Ebola in urban Liberia: the view from below. PLOS Neglected Tropical Diseases 2015: 9(4).Google Scholar
Marais, F, Minkler, M, Gibson, N, Mwau, B, Mehtar, S, Ogunsola, F, et al. A community-engaged infection prevention and control approach to Ebola. Health Promotion International 2016: 31(2): 440–9.Google Scholar
Centers for Disease Control and Prevention (2016). Crisis & Emergency Risk Communication (CERC). Online article. www.emergency.cdc.gov/cercGoogle Scholar
References
Fernald, JP, Clawson, EA. The mobile army surgical hospital humanitarian assistance mission in Pakistan: the primary care experience. Military Medicine 2007: 172(5): 471–7.Google Scholar
Ofer, B, Hadar, M, Miskin, IN, Oded, B, Shlomo, V. Primary care in a disaster scenario: the experience of the family physicians in the IDF field hospital mission to Haiti. Journal of Israeli Military Medicine 2010: 7(2): 73–5.Google Scholar
Broach, JP, McNamara, M, Harrison, K. Ambulatory care by disaster responders in the tent camps of Port-au-Prince, Haiti, January 2010. Disaster Medicine and Public Health Preparedness 2010: 4(2): 116–21.Google Scholar
Kohsaka, S, Endo, Y, Ueda, I, Namiki, J, Fukuda, K. Necessity for primary care immediately after the March 11 tsunami and earthquake in Japan. JAMA Internal Medicine 2012: 172(3): 290–1.Google Scholar
Ushizawa, H, Foxwell, AR, Bice, S, Matsui, T, et al. Needs for disaster medicine: lessons from the field of the Great East Japan Earthquake. Western Pacific Surveillamce and Response Journal 2013: 4(1): 51–5.Google Scholar
Fuday, H, Trevino, A. Primary health center disaster preparedness after the earthquake in Pandang Pariaman, West Sumatra, Indonesia. BMC Research Notes 2011: 4(81).Google Scholar
Amital, H, Alkan, ML, Adler, J, Kriess, I, Levi, Y. Israeli Defense Forces Medical Corps humanitarian mission for Kosovo’s refugees. Prehospital and Disaster Medicine 2003: 18(4): 301–5.Google Scholar
Sullivan, S, Wong, S. An enhanced primary health care role following psychological trauma: the Christchurch earthquakes. Journal of Primary Health Care 2011: 3(3): 248–51.Google Scholar
Crocker, JT, Huang, GC. Reflections on Haiti: the role of hospitalists in disaster response. Journal of Hospital Medicine 2011: 6(2): 105–7.Google Scholar
Chan, EY, Kim, JJ. Characteristics and health outcomes of internally displaced populations in unofficial rural self-settled camps after the 2005 Kashmir, Pakistan earthquake. European Journal of Emergency Medicine 2010: 17(3): 136–41.Google Scholar
Amundson, D, Dadekian, G, Etienne, M, et al. Practicing internal medicine onboard the USNS COMFORT in the aftermath of the Haitian earthquake. Annals of Internal Medicine 2010: 152(11): 733–7.Google Scholar
Sengül, A, Ozer, E, Salman, S, et al. Lessons learnt from influences of the Marmara earthquake on glycemic control and quality of life in people with type 1 diabetes. Endocrine Journal 2004: 51(4): 407–14.Google Scholar
Inui, A, Kitaoka, H, Majima, M, Takamiya, S, et al. Effect of the Kobe earthquake on stress and glycemic control in patients with diabetes mellitus. JAMA Internal Medicine 1998: 158(3): 274–8.Google Scholar
Kario, K, Ohashi, T. Increased coronary heart disease mortality after the Hanshin-Awaji earthquake among the older community on Awaji Island. Journal of the American Geriatrics Society 1997: 45(5): 610–3.Google Scholar
Erek, E, Sever, MS, Serdengeçti, K, et al. Turkish Study Group of Disaster. An overview of morbidity and mortality in patients with acute renal failure due to crush syndrome: the Marmara earthquake experience. Nephrology Dialysis Transplantation 2002: 17(1): 33–40.Google Scholar
Tomita, K, Hasegawa, Y, Watanabe, M, et al. Seibu earthquake and exacerbation of asthma in adults. The Journal of Medical Investigation 2005: 52(1–2): 80–4.Google Scholar
Kaufman, FR, Devgan, S. An increase in new onset IDDM admissions following the Los Angeles earthquake. Diabetes Care 1995: 18(3): 422.Google Scholar
References
Yum, K, Lurie, N, Hyde, PS. Moving mental health into the disaster preparedness spotlight. The New England Journal of Medicine 2010: 1194–5.Google Scholar
Satcher, D, Friel, S, Bell, R. Natural and manmade disasters and mental health. JAMA 2007: 298(21): 2540–2.Google Scholar
Redwood-Campbell, LJ, Riddez, L. Health problems encountered in the International Committee of the Red Cross Hospital in Banda Aceh, Indonesia. Prehospital and Disaster Medicine 2006: 21(1): s1–7.Google Scholar
Garbern, SC, Ebbeling, LG, Bartels, SA. A systematic review of health outcomes among disaster and humanitarian responders. Prehospital and Disaster Medicine 2016: 31(6): 635–42.Google Scholar
Nilsson, J, Johansson, E, et al. Disaster nursing: self-reported competence of nursing students and registered nurses, with focus on their readiness to manage violence, serious events and disasters. Nurse Education in Practice 2016: 17: 102–8.Google Scholar
Pfefferbaum, B, Flynn, BW, et al. The integration of mental and behavioral health into disaster preparedness, response, and recovery. Disaster Medicine and Public Health Preparedness 2012: 6(1): 60–6.Google Scholar
Noris, FH, Friedman, et al. 60 000 disaster victims speak: part I. An empirical review of the empirical literature, 1981–2001. Psychiatry 2002: 65(3): 207–39.Google Scholar
Nucifora, FC Jr, Hall, RC, Everly, GS Jr. Reexamining the role of the traumatic stressor and the trajectory of posttraumatic distress in the wake of disaster. Disaster Medicine and Public Health Preparedness 2011: 5(Suppl 2): S172–5.Google Scholar
Norwood, AE, Ursano, RJ, Fullerton, CS. Disaster psychiatry: principles and practice. Psychiatric Quarterly 2000: 71(3): 207–26.Google Scholar
Ruzek, JI, Young, BH, et al. Integration of disaster mental health services with emergency medicine. Prehospital and Disaster Medicine 2004: 19(1): 46–53.Google Scholar
Weaver, JD. Disaster mental health: detailed information – assisting in the aftermath of disasters and other life crises. Operational Logistical Support. UN op log 060915.Google Scholar
References
Australian Medical Assistance Teams (AUSMAT). Clinical service delivery guide for clinical leaders. 2016: National Critical Care Trauma Response Centre. Australian Government.Google Scholar
Young, H, Harvey, P. The sphere project: the humanitarian charter and minimum standards in disaster response: introduction. Disasters 2004: 28(2): 99.Google Scholar
World Health Organization and International Council of Nurses (2009). ICN framework of disaster nursing competencies. http://www.wpro.who.int/hrh/documents/icn_framework.pdf?ua=1competencies%20or%20abilities%20to%20rapidly%20and%20effectivelyGoogle Scholar
Veenema, T. Managing emergencies outside the hospital: Special events, Mass gatherings, and mass casualty incidents, in Veenema, T (ed.) Disaster nursing and emergency preparedness for chemical, biological, and radiological terrorism and other hazards. New York: Springer Publishing Company; 2007: 205–19.Google Scholar
Amat-Camacho, N, Hughes, A, Burkle, FM, et al. Education and training of emergency medical teams: recommendations for a global operational learning framework. PLOS Currents Disasters 2016: 1.Google Scholar
Norton, I, von Schreeb, J, Aitken, P, Herard, P, Lajolo, C. Classification and minimum standards for foreign medical teams in sudden onset disasters. Geneva: World Health Organization; 2013.Google Scholar
Australian Commission on Safety and Quality in Health Care (2012). Standard 6 clinical handover, safety and quality improvement guide. https://safetyandquality.gov.au/wp-content/uploads/2012/10/Standard6_Oct_2012_WEB.pdfGoogle Scholar
Curtis, K and Ramsden, C. Emergency and trauma care. Second edn. Australia: Elsevier; 2016.Google Scholar
International Council of Nurses. Position statement – evidence-based safe nurse staffing. 2018.Google Scholar