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Electronic Medical Records in a Mass-Casualty Exercise

Published online by Cambridge University Press:  06 November 2013

Ahmad Fayaz-Bakhsh*
Affiliation:
Tehran University of Medical Sciences, School of Allied Medical Sciences, Department of Healthcare Management, Tehran, Iran
Mehrab Sharifi-Sedeh
Affiliation:
Tehran University of Medical Sciences, School of Public Health, Department of Disaster Management, Tehran, Iran
*
Correspondence: Ahmad Fayaz-Bakhsh, MD, PhD Tehran University of Medical Sciences School of Medicine P.O. Box 14155-6447 1417613151 Tehran, Iran E-mail [email protected]
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Abstract

Type
Letter to the Editor
Copyright
Copyright © World Association for Disaster and Emergency Medicine 2013 

The following comments are in reference to the article “Impact of wireless electronic medical record system on the quality of patient documentation by emergency field responders during a disaster mass-casualty exercise.”Reference Chan, Griswold and Buono1

  1. 1. Wireless Internet Information System for Medical Response to Disasters (WIISARD) is a good system with respect to being rapidly deployable and scalable at a mass-casualty incident site, but there is a need for educated personnel and many devices and equipment. In a disaster, we need equipment that must be characterized by a number of critical functionalities:

  2. Simple in use and requiring minimal field maintenance;

  3. Operable by personnel who are unskilled in advanced telecommunications;

  4. Rugged enough to permit all-weather, rapid tactical ground/vertical deployment with non-specialized, locally available means (such as light-haul trucks/light-lift helicopters);

  5. Multimedia (data/voice/video) capable;

  6. Capable of sustaining heavy, bi-directional, multi-channel traffic (high bandwidth capability and bandwidth redundancy).Reference Patricelli, Beakley, Carnevale, Tarabochia and von Lubitz2 Many interactive medical devices are less easy to use than they might be.

  7. 2. It would have been better if the WIISARD system had been implemented in a real disaster or a large-scale disaster exercise.

  8. 3. In many countries, rescuers, first responders, and incident managers often must provide care to overwhelming numbers of victims, with limited resources, minimal information and inadequate communication tools.Reference Chan, Buono, Killeen, Griswold, Huang and Lenert3 The WIISARD system, however, needs highly-educated personnel and advanced equipment.

  9. 4. Among the most typical consequences of disasters is the near or complete collapse of terrestrial telecommunications infrastructures.Reference Iannella and Henricksen4 Internet connectivity may be very difficult for disaster managers. Also, post-disaster telecommunications difficulties are not restricted to wired/fixed networks but affect the wireless ones just as intensely: after a short radio path, wireless communication systems eventually connect to a ground segment through an access point.Reference Iannella and Henricksen4

Theodore C. Chan MD1
William G. Griswold PhD2
James P. Killeen MD1
1Department of Emergency Medicine, University of California, San Diego, San Diego, California USA
2Department of Computer Science and Engineering, University of California, San Diego, San Diego, California USA
Correspondence: Theodore Chan, MD UCSD DEM 200 West Arbor Drive #8676 San Diego, California 92103 USA E-mail

Author reply:

We thank Drs. Fayaz-Bakhsh and Sharifi-Sedeh for their interest in our article on WIISARD. The NIH-funded study, in fact, was designed to begin testing technologies and solutions to the very questions and concerns they raise in regards to disaster response.

  1. 1. We agree wholeheartedly with the need for a rapidly-deployable and scalable bidirectional information and communication system for mass-casualty incidents (MCIs) that is rugged, reliable and redundant, and simple to use by personnel. In fact, the WIISARD project was intended to begin testing new technologies in the field setting with that very goal in mind.

  2. 2. We agree that it is better to test such technologies and systems in large-scale MCI exercises as we did with WIISARD.

  3. 3. Adoption of any new technology requires education and personnel who have familiarity with such systems. The focus of WIISARD was to design systems that replicated and improved current workflows for personnel during MCIs. Incident command systems for MCIs now include a specific logistic officer to manage and direct all logistics issues during disaster responses. We suspect, with the ubiquity of technology in society in general, that there will be a need for technology-proficient leaders and staff also participating in disaster responses in the future.

  4. 4. We agree that loss of conventional telecommunications infrastructure at disaster sites is a concern. In fact, the WIISARD team recognized this as a concern and implemented various technologies to address those concerns including the use of an ad hoc field network and ABC (always best connected) systems that could circumvent challenges around damaged or overwhelmed traditional communication network systems.

Again, we thank Drs. Fayaz-Bakhsh and Sharifi-Sedeh for their comments on our work.

References

1.Chan, TC, Griswold, WG, Buono, C, et al. Impact of wireless electronic medical record system on the quality of patient documentation by emergency field responders during a disaster mass-casualty exercise. Prehosp Disaster Med. 2011;26(4):268-275.CrossRefGoogle ScholarPubMed
2.Patricelli, F, Beakley, JE, Carnevale, A, Tarabochia, M, von Lubitz, DK. Disaster management and mitigation: the telecommunications infrastructure. Disasters. 2009;33(1):23-37.CrossRefGoogle ScholarPubMed
3.Chan, TC, Buono, CJ, Killeen, JP, Griswold, WG, Huang, R, Lenert, L. Tablet computing for disaster scene managers. Presented at: AMIA Annual Symposium Proceedings 2006.Google Scholar
4.Iannella, R, Henricksen, K. Managing information in the disaster coordination centre: lessons and opportunities. Presented at: 4th International Conference on Information Systems for Crisis Response and Management (ISCRAM); May 13-16, 2007; Delft, Netherlands.Google Scholar