Book contents
- Field Hospitals
- Field Hospitals
- Copyright page
- Contents
- Contributors
- Preface
- Section 1 History
- Section 2 Scenarios
- Section 3 Operational Considerations
- Section 4 Clinical Considerations
- Chapter 13 Advanced Triage Management for Emergency Medical Teams
- Chapter 14 Medical Aspects in a Field Hospital
- Chapter 15 Pediatrics in a Field Hospital
- Chapter 16 Surgery in a Field Hospital
- Chapter 17 Wound Management in a Field Hospital Environment
- Chapter 18 Orthopedics in a Field Hospital
- Chapter 19 Burn Care in a Field Hospital Environment
- Chapter 20 Obstetrics and Gynecology in a Field Hospital
- Chapter 21 Otolaryngology and Maxillofacial Surgery in a Field Hospital
- Chapter 22 Ophthalmology in a Field Hospital
- Chapter 23 Anesthesia and Pain Management in Field Hospitals
- Chapter 24 Intensive Care Unit Buildup Within a Field Hospital Setting
- Chapter 25 Infectious Diseases and Public Health in a Field Hospital
- Chapter 26 Primary and Ambulatory Care in a Field Hospital in Disaster Areas
- Chapter 27 Mental Health in a Field Hospital
- Chapter 28 Nursing in a Field Hospital
- Section 5 Additional Contextual Considerations
- Index
- Plate Section (PDF Only)
- References
Chapter 18 - Orthopedics in a Field Hospital
from Section 4 - Clinical Considerations
Published online by Cambridge University Press: 09 January 2020
Book contents
- Field Hospitals
- Field Hospitals
- Copyright page
- Contents
- Contributors
- Preface
- Section 1 History
- Section 2 Scenarios
- Section 3 Operational Considerations
- Section 4 Clinical Considerations
- Chapter 13 Advanced Triage Management for Emergency Medical Teams
- Chapter 14 Medical Aspects in a Field Hospital
- Chapter 15 Pediatrics in a Field Hospital
- Chapter 16 Surgery in a Field Hospital
- Chapter 17 Wound Management in a Field Hospital Environment
- Chapter 18 Orthopedics in a Field Hospital
- Chapter 19 Burn Care in a Field Hospital Environment
- Chapter 20 Obstetrics and Gynecology in a Field Hospital
- Chapter 21 Otolaryngology and Maxillofacial Surgery in a Field Hospital
- Chapter 22 Ophthalmology in a Field Hospital
- Chapter 23 Anesthesia and Pain Management in Field Hospitals
- Chapter 24 Intensive Care Unit Buildup Within a Field Hospital Setting
- Chapter 25 Infectious Diseases and Public Health in a Field Hospital
- Chapter 26 Primary and Ambulatory Care in a Field Hospital in Disaster Areas
- Chapter 27 Mental Health in a Field Hospital
- Chapter 28 Nursing in a Field Hospital
- Section 5 Additional Contextual Considerations
- Index
- Plate Section (PDF Only)
- References
Summary
Orthopedic treatment in a field hospital setting differs significantly from that in everyday practice in a high-income country. Field hospitals are deployed in a variety of scenarios, most commonly following earthquakes and armed conflicts, which cause a high incidence of musculoskeletal injuries. One should anticipate a large caseload of life and limb threatening injuries, delayed presentation with subsequent infections, limited operating theatre sterility, and a paucity of imaging, instrumentation, and fixation hardware.
These limitations dictate a damage control treatment approach, which includes “life over limb"": prioritizing life saving to limb saving procedures. Contamination and infection are treated by aggressive surgical debridement of contaminants and non-viable tissues. Fracture fixation is performed using the simplest and quickest methods; usually external fixation for open fractures casting for closed fractures, avoiding open reduction and internal fixation due to limited surgical sterility.
Indications for amputation include non-viable limbs due to irreparable vascular damage or severe crush injuries and infections uncontrollable by surgical and medical means.
Surgical decisions should take into account the cultural variability in the disaster milieu and informed consent should be obtained using interpreters, family and community members, and local medical personnel.
Keywords
- Type
- Chapter
- Information
- Field HospitalsA Comprehensive Guide to Preparation and Operation, pp. 180 - 195Publisher: Cambridge University PressPrint publication year: 2020
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 ScholarPubMed
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.CrossRefGoogle ScholarPubMed
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.CrossRefGoogle ScholarPubMed
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.CrossRefGoogle 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 ScholarPubMed
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.CrossRefGoogle ScholarPubMed
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.CrossRefGoogle ScholarPubMed
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.CrossRefGoogle ScholarPubMed
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.CrossRefGoogle ScholarPubMed
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.CrossRefGoogle ScholarPubMed
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.CrossRefGoogle 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.CrossRefGoogle ScholarPubMed
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.CrossRefGoogle ScholarPubMed
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.CrossRefGoogle ScholarPubMed
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.CrossRefGoogle ScholarPubMed
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.CrossRefGoogle ScholarPubMed
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.CrossRefGoogle 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.CrossRefGoogle ScholarPubMed
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.CrossRefGoogle 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.Google Scholar
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.CrossRefGoogle ScholarPubMed
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.CrossRefGoogle 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.CrossRefGoogle ScholarPubMed
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.CrossRefGoogle ScholarPubMed
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.CrossRefGoogle ScholarPubMed
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.CrossRefGoogle ScholarPubMed
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