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Public Health and Disasters: An Emerging Translational and Implementation Science, Not “Lessons Learned”

Published online by Cambridge University Press:  23 March 2017

Kristi L. Koenig*
Affiliation:
Department of Emergency Medicine and Public Health, Center for Disaster Medical Sciences, University of California, Irvine
Carl H. Schultz
Affiliation:
Department of Emergency Medicine and Public Health, Center for Disaster Medical Sciences, University of California, Irvine
Miryha Gould Runnerstrom
Affiliation:
Program in Public Health, University of California, Irvine
Oladele A. Ogunseitan
Affiliation:
Program in Public Health, University of California, Irvine
*
Correspondence and reprint requests to Kristi L. Koenig, MD, Director, Center for Disaster Medical Sciences, Professor, Emergency Medicine and Public Health, University of California, Irvine, Department of Emergency Medicine, 333 The City Boulevard West, Suite 640, Rt 128-01, Orange, CA 92868 (e-mail: [email protected]).
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Abstract

Disaster Medicine is a relatively new multidisciplinary field of science with clear public health implications as it focuses on improving outcomes for populations rather than for individual patients. As with any other scientific discipline, the goal of public health and disaster research is to create new knowledge and transfer evidence-based data to improve public health. The phrase “lessons learned” has crept into the disaster lexicon but must be permanently erased as it has no place in the scientific method. The second edition of Koenig and Schultz’s Disaster Medicine: Comprehensive Principles & Practice adds to the growing knowledge base of this emerging specialty and explains why “lessons learned” should be discarded from the associated vocabulary. (Disaster Med Public Health Preparedness. 2017;11:610–611)

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

Disasters are frequently at the forefront of breaking news in modern societies, yet there is little acknowledgement that they represent “wicked problems”Reference Churchman 1 with complex interdependencies that require application of public health approaches and tools for effective management. A cutting-edge second edition of a Cambridge University Press reference by Koenig and Schultz emphasizes the public health aspects of Disaster Medicine and highlights the importance of application of science to this emerging field.Reference Koenig and Schultz 2 Each chapter of the textbook is authored by international experts and contains a concluding section on “recommendations for future research,” with the goal of laying the groundwork for the research agenda for the future.Reference Lillibridge 3

Despite this lofty goal, disaster research is challenging and still evolving. The majority of studies to date have been descriptive reports, cross-sectional studies, surveys and interviews, and other observational-type studies. These common methodologic choices for disaster research stem from the nature of disasters. Specifically, scientists have difficulty determining the timing of events, variables are difficult to interpret, environments and populations differ between disaster events, and models (drills) are difficult to construct realistically. Because the gold standard of a randomized controlled trial is the exception rather than the rule with disaster research, most data do not show causal links.

DISCUSSION

Prior to the biological terrorist attacks following September 11, 2001, public health agencies paid little attention to rapid management of “disasters” and more typically performed rigorous, methodical, but not rapid epidemiologic investigations of evolving public health emergencies. Few data were therefore immediately available for widespread dissemination to decision-makers. Once the anthrax (Amerithrax) attacksReference Jernigan, Raghunathan and Bell 4 in the fall of 2001 were identified as being deliberate acts of terrorism, it became clear that public health agencies needed to develop systems based on classic disaster management principles in order to rapidly synthesize and respond to emerging challenges. The US Centers for Disease Control and Prevention (CDC) and other public health authorities quickly developed robust emergency management capabilities that persist today.

A challenge remains, however, in the use of outdated terminology that detracts from the goal of applying scientific standards to disaster medicine and public health. A key phrase that has crept into the disaster lexicon and remains a sticky but misguided term is “lessons learned.” The lists of lessons provided are typically the same after each event and may include declarations such as “communications were challenging” and “convergent volunteers contributed to management difficulties.” As such, either no novel knowledge is gained or, if it is, only those directly involved in managing the event acquire it and systematic dissemination of the data does not occur.Reference der Heide 5 Rather than a “lesson learned” by a single individual, we need to create new knowledge that can be imparted to future generations as is customary for every other scientific specialty. The translational sciences, “knowledge management” Reference Serenko and Bontis 6 and “knowledge transfer,”Reference Argote and Ingram 7 do not depend on “lessons.” Rather, knowledge is acquired by application of the scientific method and based on systematically gathering observations and measurements that are subject to rigorous experimental principles.Reference Koenig 8 Other established fields with unique bodies of knowledge do not describe new scientific discoveries as “lessons learned” and neither should disaster medicine and public health.

Without a system for knowledge transfer, individual “lessons learned” would be lost when that person no longer functions in a disaster management position. The specialty requires acquisition and dissemination of a systematic body of knowledge in a consolidated, easily accessible manner, rather than being spread over multiple existing disciplines.Reference der Heide 9 - Reference Abramson, Morse and Garrett 11 Scientific inquiry, standardized evidence-based curricula, fellowships, and textbooks are all elements of establishing the existence of a unique body of knowledge.Reference Salama, Spiegel and Talley 12 Only through application of scientific principles can the science of disaster medicine be codified. To quote Sir Francis Bacon, “Science is the process used every day to logically complete thoughts through inference of facts determined by calculated experiments.”Reference Bacon 13

PUBLIC HEALTH IMPLICATIONS

As Richard H. Carmona, MD, MPH, FACS, 17th Surgeon General of the United States, explains in the foreword to the first edition of Koenig and Schultz’s Disaster Medicine: Comprehensive Principles & Practices, the editors are “moving the science of disaster medicine forward by describing its essential concepts and laying the academic foundation for this emerging specialty….There is a focus on science and outcomes rather than opinions and anecdotes.”Reference Koenig and Schultz 14

Whether the event is an emerging infectious disease public health emergency such as Ebola or Zika, a major earthquake as in Haiti or Japan, a radiation emergency, or a terrorist attack, the public health implications of the science of disaster medicine are clear. Just as knowledge must be transferred to future populations of scientists and practitioners rather than “lessons learned” maintained by an individual, disaster sciences must focus on improving outcomes for populations and not merely individuals. Indeed public health, by definition, involves protecting the health of populations.

The science of Disaster Medicine remains relatively new with multifactorial and complex influences on its continuing development. These include evolving work by the psychosocial, political, economic, and engineering communities, as well as the impact generated by mass media and social media. Collaborations between disaster medicine and public health researchers will significantly enhance the science of both specialties, benefiting population health in ways neither group could achieve in isolation. We must advocate for outcomes-based research and scientific inquiry to inform policy decisions with a focus on patients and protecting the public health. Public health and disaster researchers must apply science and public health principles to the wicked problem of disaster event management. Only then can the term “lessons learned” be appropriately and definitively relegated to the history books.

References

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