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Challenges of Treating Adenovirus Infection: Application of a Deployable Rapid-Assembly Shelter Hospital

Published online by Cambridge University Press:  06 March 2017

Song Bai
Affiliation:
Institute of Disaster Medicine and Public Health, Affiliated Hospital of Logistic University of Chinese People’s Armed Police Force (PAPF), and Key Laboratory of Emergency and Disaster Medicine in Chinese People’s Liberation Army (PLA), Tianjin, China
Bao-guo Yu
Affiliation:
Institute of Disaster Medicine and Public Health, Affiliated Hospital of Logistic University of Chinese People’s Armed Police Force (PAPF), and Key Laboratory of Emergency and Disaster Medicine in Chinese People’s Liberation Army (PLA), Tianjin, China
Yong-Zhong Zhang
Affiliation:
Institute of Disaster Medicine and Public Health, Affiliated Hospital of Logistic University of Chinese People’s Armed Police Force (PAPF), and Key Laboratory of Emergency and Disaster Medicine in Chinese People’s Liberation Army (PLA), Tianjin, China
Hui Ding
Affiliation:
Institute of Disaster Medicine and Public Health, Affiliated Hospital of Logistic University of Chinese People’s Armed Police Force (PAPF), and Key Laboratory of Emergency and Disaster Medicine in Chinese People’s Liberation Army (PLA), Tianjin, China
Zhou-wei Wu
Affiliation:
Institute of Disaster Medicine and Public Health, Affiliated Hospital of Logistic University of Chinese People’s Armed Police Force (PAPF), and Key Laboratory of Emergency and Disaster Medicine in Chinese People’s Liberation Army (PLA), Tianjin, China
Bin Fan
Affiliation:
Institute of Disaster Medicine and Public Health, Affiliated Hospital of Logistic University of Chinese People’s Armed Police Force (PAPF), and Key Laboratory of Emergency and Disaster Medicine in Chinese People’s Liberation Army (PLA), Tianjin, China
Hao-jun Fan
Affiliation:
Institute of Disaster Medicine and Public Health, Affiliated Hospital of Logistic University of Chinese People’s Armed Police Force (PAPF), and Key Laboratory of Emergency and Disaster Medicine in Chinese People’s Liberation Army (PLA), Tianjin, China
Shi-ke Hou*
Affiliation:
Institute of Disaster Medicine and Public Health, Affiliated Hospital of Logistic University of Chinese People’s Armed Police Force (PAPF), and Key Laboratory of Emergency and Disaster Medicine in Chinese People’s Liberation Army (PLA), Tianjin, China
Feng Chen
Affiliation:
Institute of Disaster Medicine and Public Health, Affiliated Hospital of Logistic University of Chinese People’s Armed Police Force (PAPF), and Key Laboratory of Emergency and Disaster Medicine in Chinese People’s Liberation Army (PLA), Tianjin, China
*
Correspondence and reprint requests to Shi-ke Hou, No. 220, Chenglin road, Hedong District, Tianjin City, China (e-mail: [email protected]).

Abstract

This article outlines the evolution of a rescue team in responding to adenovirus prevention with a deployable field hospital. The local governments mobilized a shelter hospital and a rescue team consisting of 59 members to assist with rescue and response efforts after an epidemic outbreak of adenovirus. We describe and evaluate the challenges of preparing for deployment, field hospital maintenance, treatment mode, and primary treatment methods. The field hospital established at the rescue scene consisted of a medical command vehicle, a computed tomography shelter, an X-ray shelter, a special laboratory shelter, an oxygen and electricity supply vehicle, and epidemic prevention and protection equipment. The rescue team comprised paramedics, physicians, X-ray technicians, respiratory therapists, and logistical personnel. In 22 days, more than 3000 patients with suspected adenovirus infection underwent initial examinations. All patients were properly treated, and no deaths occurred. After emergency measures were implemented, the spread of adenovirus was eventually controlled. An emergency involving infectious diseases in less-developed regions demands the rapid development of a field facility with specialized medical personnel when local hospital facilities are either unavailable or unusable. An appropriate and detailed prearranged action plan is important for infectious diseases prevention. (Disaster Med Public Health Preparedness. 2018;12:109–114)

Type
Concepts in Disaster Medicine
Copyright
Copyright © Society for Disaster Medicine and Public Health, Inc. 2017 

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Footnotes

*

These authors contributed equally to this work.

References

REFERENCES

1. Fan, HJ, Gao, HW, Ding, H, et al. The Ebola threat: China’s response to the West African epidemic and national development of prevention and control policies and infrastructure. Disaster Med Public Health Prep. 2015;9(1):64-65.Google Scholar
2. Yen, MY, Chiu, AWH, Schwartz, J, et al. From SARS in 2003 to H1N1 in 2009: lessons learned from Taiwan in preparation for the next pandemic. J Hospital Infect. 2014;87(4):185-193.Google Scholar
3. Muhammad Ismail, HI, Teh, CM, Lee, YL, et al. Neurologic manifestations and complications of pandemic influenza A H1N1 in Malaysian children: What have we learnt from the ordeal? Brain Dev. 2015;37(1):120-129.Google Scholar
4. Watanabe, T, Watanabe, S, Maher, EA, et al. Pandemic potential of avian influenza A (H7N9) viruses. Trends Microbiol. 2014;22(11):623-631.Google Scholar
5. Lu, M, Fan, B, Fan, HJ, et al. Research of house trailer for dealing with emergency and phobic accident by Armed Police Force [in Chinese]. Chinese Medical Equipment Journal. 2012;33(3):81-83.Google Scholar
6. Zhang, WC, TAN, SL, Liu, ZG, et al. Design of medical service vehicle in shelter hospital for Chinese People’s Armed Police Forces [in Chinese]. Chinese Medical Equipment Journal. 2012;33(11):86-88.Google Scholar
7. Wen, J, Cui, XP, Fan, HJ, et al. Study on the grounding protection of the medical equipment and informationalized equipment in the field rescue [in Chinese]. China Medical Devices. 2013;28(6):36-38.Google Scholar
8. Wen, J, Fan, HJ, Hou, SK, et al. Application of network IP audio and video monitoring system in rescue shelter hospital [in Chinese]. China Medical Devices. 2012;17(12):92-95.Google Scholar
9. Ding, H, Hou, SK, Fan, HJ, et al. Development of CT shelter in emergency mobile hospital for Chinese People’s Armed Police Forces [in Chinese]. Chinese Medical Equipment Journal. 2012;33(11):81-82,102.Google Scholar
10. Hou, SK, Fan, HJ. On-the-spot emergency medical aid in disastrous earthquake area of Wenchuan County, Sichuan Province by the China International Search and Rescue Team [in Chinese]. China Journal of Emergency Resuscitation and Disaster Medicine. 2008;3(6):323-325.Google Scholar
11. Hou, SK, Yang, Y, Yang, J, et al. Discuss of disaster emergency rescue by experience of Chinese International Search and Rescue Team. Hospital Administration Journal of Chinese People’s Liberation Army. 2008;15(11):1019-1021.Google Scholar
12. Cao, L, Hou, SK, Fan, HJ, et al. Active practice and application of health and epidemic prevention strategies of Chinese international rescue team in Haiti [in Chinese]. Chinese Journal of Nosocomiology. 2012;20(19):3015-3016.Google Scholar
13. Cao, L, Hou, SK, Fan, HJ, et al. Terminal treatment of dead bodies and disease control and prevention by China international search and rescue team in Haiti [in Chinese]. Chinese Journal of Nosocomiology. 2010;20(23):3721-3722.Google Scholar