Hostname: page-component-745bb68f8f-5r2nc Total loading time: 0 Render date: 2025-01-22T20:02:35.311Z Has data issue: false hasContentIssue false
  • English
  • Français

Medical Evacuation and Liquidation of the Medical-Sanitary Aftereffects in Crisis

Published online by Cambridge University Press:  28 February 2022

Natalia Baranova ,
Boris Boby ,
Sergei Goncharov Open the ORCID record for Sergei Goncharov [Opens in a new window]  and
Natalia Nechaeva
Natalia Baranova
Affiliation:
Center of the Medical Evacuation of the All-Russian Center of Disaster Medicine “Protection” of the Ministry of Health Care of Russian Federation, Moscow, Russia
Boris Boby
Affiliation:
Center of the Medical Evacuation of the All-Russian Center of Disaster Medicine “Protection” of the Ministry of Health Care of Russian Federation, Moscow, Russia
Sergei Goncharov*
Affiliation:
Center of the Medical Evacuation of the All-Russian Center of Disaster Medicine “Protection” of the Ministry of Health Care of Russian Federation, Moscow, Russia
Natalia Nechaeva
Affiliation:
Center of the Medical Evacuation of the All-Russian Center of Disaster Medicine “Protection” of the Ministry of Health Care of Russian Federation, Moscow, Russia
*
Correspondence: Sergei Goncharov 123182, Moscow, Shukinskaya Str., 5, Russia E-mail: [email protected]
Get access Rights & Permissions [Opens in a new window]

Editor’s comment

The following article was cleared for publication following peer review and upon the Editor-in-Chief’s decision. The manuscript is an addition to the global health literature. The manuscript reads uneven in the current English version, but the topic and concepts presented are of global interest and add to the disaster planning, response, and recovery knowledge base.

Keywords

crisis situationmedical evacuationmedical-sanitary aftereffectsorganizationtransportation
Type
Research Report
Information
Prehospital and Disaster Medicine , Volume 37 , Issue 2 , April 2022 , pp. 255 - 258
Check for updates
Copyright
© The Author(s), 2022. Published by Cambridge University Press on behalf of the World Association for Disaster and Emergency Medicine

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

On the Approval of the Regulation of the All-Russian Service of Disaster Medicine. Decree of the Government of the Russian Federation from August 26, 2013; No. 734.Google Scholar
On the Approval of the List of the Federal State Institutions, Providing the Medical Evacuation. Order of the Ministry of Health of Russia from June 5, 2012; No. 500.Google Scholar
All-Russian Center of Disaster Medicine. The Clinical Recommendation on Providing the Medical Care to the Suffered in the Emergency Situations. Moscow, Russia: FSBI ACDM “Protection;” 2015.Google Scholar
Starodubtseva, VI, Shepina, OP. Public Health and Healthcare. National Guide. Moscow, Russia: GEO-TAR-Media; 2013.Google Scholar
Fisun, AY, Vlasov, AU, Sushilnikov, SI. System improvement of medical-evacuation activities in the troops using the mobile specialized units. Skoraya Meditsinskaya Pomoshch. 2013;7:48.Google Scholar
Fisun, AY, Kalachev, OV, Shegolev, AV. Medical-technical means of providing of the single cycle of the evacuation activities in military-medical organizations of the Ministry of Defense. Voyenno-Meditsinskiy Zhurnal. 2015;6:47.Google Scholar
Kulnev, SV, Bobrov, UM, Soldatov, EL. Organization of the Medical Evacuation in the Military Forces of the Russian Federation on the Modern Stage. Moscow, Russia: FSBI “State RI of Military Medicine” Ministry of Defense of Russia; 2017.Google Scholar
Shegolev, AV. Problematic Issues of Medical Evacuation of the Injured and Sick in the Critical State. Moscow, Russia: FSBI “State RI of Military Medicine” Ministry of Defense of Russia; 2017.Google Scholar
Baranova, NN. Medical evacuation of the suffered: state, problems (2nd report). Disaster Medicine. 2019;1:4246.10.33266/2070-1004-2019-1-42-46CrossRefGoogle Scholar
Goncharov, SF, Bystrov, MV, Bobij, BV. The Basics of the Organization of the Providing the Medical Care to the Suffered in the Emergency Situations: Study Guide for Doctors. Moscow, Russia: FSBI ACDM “Protection;” 2017.Google Scholar
Goncharov, SF. The problems of development of the system of urgent and consultative medical care and medical evacuation in the Russian Federation. Disaster Medicine. 2012;2:611.Google Scholar
Makhnovskiy, AI, Ergashev, ON, Blinda, IV, et al. The main directions for improvement in regional system of medical care arrangement for military men with polytrauma in the Western Military District. The Experience in Use of Workforce and Means of the Medical Service of RF (Defense Ministry of USSR) in Liquidation of Medico-Sanitary Consequences of Emergency Situations 2016: The Materials of All-Army Scientific and Practical Conference. Saint Petersburg, Russia: VMedA named after Kirov; 2016:27-33.Google Scholar
Kasimov, RR, Makhnovskiy, AI, Loginov, VI, et al. Objective Estimation of Injury Severity in Military Level, Garrison and Basic Military Hospitals: The Guidelines. Nizhny Novgorod, Russia: Stimul ST; 2017.Google Scholar
Hurd, WW, Jernigan, JG, (eds). Aeromedical Evacuation. Management of Acute and Stabilized Patients. New York USA: Springer-Verlag; 2003.10.1007/b98827CrossRefGoogle Scholar
Samokhvalov, IM, Boyarintsev, VV, Gavrilin, SV, et al. Traumatic disease: the state of the problem, variants of the course (1st report). Vestnik Anesteziologii i Reanimatologii. 2009;6(3):28.Google Scholar
Inozemtsev, EO, Grigoryev, EG, Apartsin, KA. The actual issues of surgery of associated injuries (according to publications in Polytrauma journal). Politravma. 2017;1:611.Google Scholar
Shatalin, AV, Agadzhanyan, VV, Kravtsov, SA, et al. Estimation of transportability in patients with polytrauma during interhospital transfer. Skoraya Meditsinskaya Pomoshch. 2011;2:2025.Google Scholar
Tulupov, AN, Besaev, GM, Sinchenko, GI, et al. Polytrauma in road traffic accidents: solved and unsolved problems in conditions of Saint Petersburg. Kremlyovskaya Meditsina. 2015;2:3035.Google Scholar
Kuvshinov, KE, Sushilnikov, SI, Yakovlev, SV, et al. Arrangement of sanitary aviation evacuation in Military Forces. Voyenno-Meditsinskiy Zhurnal. 2017;338(4):411.Google Scholar
Sahno, VI, Zaharov, GI, Karlin, NE, Pilik, NM. Organization of Population Medical Care in Emergency Situations. Saint Petersburg, Russia: Foliant; 2003.Google Scholar
Goncharov, SF, Sahno, II. The questions of the disaster medicine in the system of the higher and additional professional education of the medical stuff. Disaster Medicine. 2017;2:6768.Google Scholar
Rasmussen, K, Røislien, J, Sollid, SJM. Does medical staffing influence perceived safety? An international survey on medical crew models in helicopter emergency medical services. Air Med J. 2018;37(1):2936.10.1016/j.amj.2017.09.008CrossRefGoogle ScholarPubMed
Stowell, A, Bobbia, X, Cheret, J, et al. Out-of-hospital times using helicopters versus ground services for emergency patients. Air Med J. 2019;38(2):100105.10.1016/j.amj.2018.11.017CrossRefGoogle ScholarPubMed
Homma, H, Niiyama, Y, Sonoda, H, et al. The impact of air transport for acute coronary syndrome patients. Air Med J. 2019;38(2):7377.10.1016/j.amj.2018.11.008CrossRefGoogle ScholarPubMed
Kashani, KB, Farmer, JC. The support of severe respiratory failure beyond the hospital and during transportation. Curr Opin Crit Care. 2006;12(1):4349.10.1097/01.ccx.0000198057.35212.3eCrossRefGoogle ScholarPubMed
Parsons, CJ, Bobechko, WP. Aeromedical transport: its hidden problems. Can Med Assoc J. 1982;126(3):237243.Google ScholarPubMed
Poulton, TJ, Worthington, DW, Pasic, TR. Physiologic chest sounds and helicopter engine noise. Aviat Space Environ Med. 1994;65(4):338340.Google ScholarPubMed
Joshi, MC, Sharma, RM. Aero-medical considerations in casualty air evacuation (CASAEVAC). Med J Armed Forces India. 2010;66(1):6365.10.1016/S0377-1237(10)80097-8CrossRefGoogle Scholar
Yanagawa, Y, Anan, H, Oshiro, K, et al. An evaluation of a mass casualty life support course for chemical, biological, radiological, nuclear, and explosive incidents. SAS J Med. 2016;2(5):110114.Google Scholar
Yanagawa, Y, Ishikawa, K, Takeuchi, I, et al. Should helicopters transport patients who become sick after a chemical, biological, radiological, nuclear, and explosive attack? Air Med J. 2018;37(2):124125.10.1016/j.amj.2017.11.010CrossRefGoogle ScholarPubMed
Logunov, KV. Evacuation of patients and injured from the board of non-emergency marine vessels ashore in the search and rescue areas of responsibility of the Russian Federation. Skoraya Meditsinskaya Pomoshch. 2015;3:4954.Google Scholar
Kachanova, NA. Medical evacuation of citizens of the Russian Federation from abroad: basic problems and ways of their solution. Disaster Medicine. 2019;2(106):4551.10.33266/2070-1004-2019-2-45-51CrossRefGoogle Scholar
Evjemo, TE, Reegård, K, Fernandes, A. Telemedicine in oil and gas: current status and potential improvements. Procedia Manufacturing. 2015;3:12891296.10.1016/j.promfg.2015.07.274CrossRefGoogle Scholar
Norman, JN, Ballantine, BN, Brebner, JA, et al. Medical evacuations from offshore structures. Br J Ind Med. 1988;45(9):619623.Google ScholarPubMed
Toner, S, Andrée Wiltens, DH, Berg, J, et al. Medical evacuations in the oil and gas industry: a retrospective review with implications for future evacuation and preventative strategies. J Travel Med. 2017;24(3):17.10.1093/jtm/taw095CrossRefGoogle ScholarPubMed
Wynberg, E, Toner, S, Wendt, JK, et al. Business travelers’ risk perception of infectious diseases: where are the knowledge gaps, and how serious are they? J Travel Med. 2013;20(1):1116.10.1111/j.1708-8305.2012.00673.xCrossRefGoogle Scholar
Boultinghouse, OW, Fitts, TG. Telemedicine technologies enhance offshore healthcare, reduce illness-related departures. Drilling Contractor. 2009;11.Google Scholar