ABSTRACT
The 2011 Great East Japan Earthquake (GEJE) has renewed the paradigm of disaster medicine. The Tohoku Journal of Experimental Medicine (TJEM) widened its scope to include the disaster science from the health perspectives. TJEM has been accumulating 76 articles related with "disaster" or "pandemic" out of which 69 were published after 2011. Tohoku University established the International Research Institute of Disaster Science (IRIDeS) that took initiative to impact the Sendai Framework for Disaster Risk Reduction 2015-2030 (Sendai Framework) to include health aspect. Sendai Framework provided the platform for collaboration of different sectors, including the terminology that defines the concept of disaster, risk, hazard & exposure, vulnerability and coping capacity. Disaster medicine covers the diverse causes and damages of disasters by various hazards in this globalized and rapidly changing world. TJEM articles range the physical and mental health damage after the GEJE and other disasters with approved ethical consideration of investigations from the view point of affected area, mechanisms of hazard to affect human health including the radiation, virus or hazardous materials, proposal of refinement of health system to cope with disasters such as mental health support, risk communication, disaster medical coordination and hospital business continuity plan and future perspectives with reconstruction including Tohoku Medical Megabank Project. TJEM scope on disaster medicine had been widened during the 10 years after GEJE and IRIDeS can be the bridging hub not only between the health sector and other sectors, but also between disaster medicine and other medical disciplines.
Subject(s)
Disaster Medicine/trends , Earthquakes , Disaster Planning , Fukushima Nuclear Accident , Japan , Periodicals as Topic , Terminology as Topic , TsunamisABSTRACT
During a disaster, all hospitals are expected to function as "social critical institutions" that protect the lives and health of people. In recent disasters, numerous hospitals were damaged, and this hampered the recovery of the affected communities. Had these hospitals business continuity plans (BCPs) to recover quickly after the disaster, most of the damage could have been avoided. This study conducted a scoping review of the historical trend and regional differences in hospital BCPs to validate the improvement of the BCP concept based on our own experience at Tohoku University Hospital, which was affected by the 2011 Great East Japan Earthquake and Tsunami (GEJET). We searched PubMed by using keywords related to BCP and adapted 97 articles for our analysis. The number of articles on hospital BCPs has increased in the 2000s, especially after Hurricane Katrina in 2005. While there are regional specificity of hazards, there were many common topics and visions for BCP implementation, education, and drills. From our 2011 GEJET experience, we found that BCPs assuming region-specific disasters are applicable in various types of disasters. Thus, we suggest the following integral and universal components for hospital BCPs: (1) alternative methods and resources, (2) priority of operation, and (3) resource management. Even if the type and extent of disasters vary, the development of BCPs and business continuity management strategies that utilize the abovementioned integral components can help a hospital survive disasters in the future.
Subject(s)
Disaster Planning/trends , Earthquakes , Hospital Administration/trends , Tsunamis , Disaster Medicine/trends , Hospitals, University , Humans , Japan , Quality ImprovementABSTRACT
Terrorist attacks or amok runs may cause "threatening situations" for emergency medical services (EMS), fire fighters and physicians. Cooperation with the police is of paramount importance. In order to minimize the risk to rescue personnel and affected persons, emergency medical care has to follow tactical principles. So, the strategy in such "threatening situations" is "Stop the bleeding and clear the scene". The police define three areas of danger: unsafe, partly safe and secure. Medical care in these areas follows the concept of Tactical Combat Casualty Care. While only police should act in the unsafe area, the EMS can operate in the partly safe area after appropriate arrangements. Safety may only be achieved in emergency departments, which have to be made to secure areas by certain measures.The task force "Tactical Medicine" of the Scientific Working Group Emergency Medicine of the German Association for Anesthesiology and Intensive Care describes in this article essential criteria for a coordinated approach in "threatening situations".
Subject(s)
Disaster Medicine/trends , Disasters , Mass Casualty Incidents , Disaster Planning , Germany , Humans , Military MedicineABSTRACT
In Japan, experience from an earthquake has always provided an opportunity to reconsider measures of disaster preparedness. To facilitate decision-making and its enforcement in a large-scale disaster response, a cross-agency organization and tough infrastructure are required as a foundation of crisis management. In the Fukushima nuclear power plant accident, the Fukushima Nuclear Disaster Management Center could not perform their mission due to the collapse of various infrastructure caused by the earthquake. The archipelago structure of Japan is easy terrain that provides approach from the shore to any place in the country; this makes it possible to plan effective relief operations. Therefore, in preparing for the next large-scale disaster, the use of a hospital ship has been discussed as one of the strong bases to combat collapse of infrastructure. For effective utilization of the ship, we will discuss the main points collated from experience of past disaster responses and training.
Subject(s)
Disaster Medicine/trends , Disaster Planning/trends , Disasters , Ships , Humans , JapanABSTRACT
Disaster medical system in Japan has been changing after huge disaster attack. Disaster Medical Assistance Team (DMAT) was established on 1995 after the Hanshin-Awaji Great Earthquake and played important role in the Great Eastern Japan Earthquake on 2011. The action of DMAT is specialized within acute phase. Continual medical aid activity is required from acute phase to chronic phase. After DMAT evacuation, Japan Medical Association Team (JMAT), Japanese Red Cross Teams, Medical university teams and many other medical teams work sequentially in the disaster area. On the other hand, unbalance in the disaster area is occurred. Disaster medical coordinator accommodates that unbalance situation. Development of receive system for many medical assistance teams will be required.
Subject(s)
Disaster Medicine/trends , Emergency Medical Services , Emergency Medicine/trends , Disaster Planning/methods , Disaster Planning/organization & administration , Earthquakes , Emergency Medical Services/methods , Health Resources , Health Services Needs and Demand , Humans , Information Systems , Japan , Organization and Administration , Patient Care Team/organization & administration , TriageSubject(s)
Computer Security/standards , Disaster Medicine/organization & administration , Disaster Planning , Emergency Medicine/organization & administration , Terrorism , Disaster Medicine/trends , Disaster Planning/organization & administration , Emergency Medicine/trends , Humans , Risk AssessmentABSTRACT
The management of critical trauma disease (CTD) has always trends the trends in military war experiences. These conflicts have historically revolutionized clinical concepts, clinical practice guidelines and medical devices, and have marked future lines of research and aspects of training and learning in severe trauma care. Moreover, in the civil setting, the development of intensive care, technological advances and the testing of our healthcare systems in the management of multiple victims, hasve also led to a need for innovation in our trauma care systems.
Subject(s)
Disaster Medicine/trends , Therapies, Investigational , Traumatology/trends , Wounds and Injuries/therapy , Balloon Occlusion/instrumentation , Critical Care/methods , Critical Care/trends , Disease Management , Fluid Therapy , Heart Arrest/therapy , Hemostatic Techniques/instrumentation , Humans , Infusions, Intraosseous/instrumentation , Mass Casualty Incidents , Military Medicine , Patient Care Team , Patient Simulation , Resuscitation/methods , Thoracotomy , ThrombelastographyABSTRACT
Current escalation of natural disasters, pandemics, and humanitarian crises underscores the pressing need for inclusion of disaster medicine in medical education frameworks. Conventional medical training often lacks adequate focus on the complexities and unique challenges inherent in such emergencies. This discourse advocates for the integration of disaster medicine into medical curricula, highlighting the imperative to prepare health-care professionals for an effective response in challenging environments. These competencies encompass understanding mass casualty management, ethical decision-making amidst resource constraints, and adapting health-care practices to varied emergency contexts. Therefore, we posit that equipping medical students with these specialized skills and knowledge is vital for health-care delivery in the face of global health emergencies.
Subject(s)
Disaster Medicine , Education, Medical , Humans , Disaster Medicine/education , Disaster Medicine/methods , Disaster Medicine/trends , Education, Medical/methods , Education, Medical/trends , Education, Medical/standards , Curriculum/trends , Curriculum/standardsABSTRACT
The concept of disaster medicine, derivedfrom medical management of casualties caused by terrorist attacks or earthquakes, began to be taught in medical school in 1982. It adapts military intervention tactics to civilian practices, and differentiates major disasters (in which preformed teams are sent to the scene) from disasters with limited effects (predefined plans form the backbone of the rescue organization). Management of blast and crush syndromes, triage, care of numerous burn victims, on-site amputation, necrotomy, medicopsychological support, mass decontamination, and rescue management are some of the aspects with which physicians should be familiar. Predefined intervention teams and ad hoc materials have been created to provide autonomous logistic support. Regulations, ethical aspects and managerial methods still need to be refined, and research and teaching must be given a new impetus.
Subject(s)
Disaster Medicine/organization & administration , Disasters , Amputation, Surgical/methods , Decontamination/methods , Disaster Medicine/education , Disaster Medicine/methods , Disaster Medicine/trends , Disaster Planning , Emergency Responders/education , Forensic Anthropology , France , Humans , Internationality , Mass Casualty Incidents , Oxygen Inhalation Therapy , Radioactive Hazard Release , Terrorism , Transportation of Patients/organization & administration , Triage , Universities , Wounds and Injuries/therapySubject(s)
Civil Defense/trends , Disaster Medicine/trends , Disaster Planning/trends , September 11 Terrorist Attacks , Civil Defense/methods , Civil Defense/organization & administration , Disaster Medicine/methods , Disaster Medicine/organization & administration , Disaster Planning/methods , Disaster Planning/organization & administration , Humans , United StatesABSTRACT
Mobile health care technology (mHealth) has the potential to improve communication and clinical information management in disasters. This study reviews the literature on health care and computing published in the past five years to determine the types and efficacy of mobile applications available to disaster medicine, along with lessons learned. Five types of applications are identified: (1) disaster scene management; (2) remote monitoring of casualties; (3) medical image transmission (teleradiology); (4) decision support applications; and (5) field hospital information technology (IT) systems. Most projects have not yet reached the deployment stage, but evaluation exercises show that mHealth should allow faster processing and transport of patients, improved accuracy of triage and better monitoring of unattended patients at a disaster scene. Deployments of teleradiology and field hospital IT systems to disaster zones suggest that mHealth can improve resource allocation and patient care. The key problems include suitability of equipment for use in disaster zones and providing sufficient training to ensure staff familiarity with complex equipment. Future research should focus on providing unbiased observations of the use of mHealth in disaster medicine.
Subject(s)
Disaster Medicine/methods , Emergency Medical Service Communication Systems/organization & administration , Telemedicine/methods , Databases, Bibliographic , Disaster Medicine/trends , Emergency Medical Service Communication Systems/trends , Humans , Medical Informatics/instrumentation , Medical Informatics/methods , Medical Informatics/trends , Telemedicine/instrumentation , Telemedicine/trendsABSTRACT
OBJECTIVE: The transition of emergency departments and the current situation of emergency medicine (EM) in Fukuoka City Hospital (FCH) were reviewed. METHODS: The data concerning emergency medicine, such as the transition of intra-hospital emergency systems, were obtained from annual reports published in our hospital. Additionally, the data regarding educational programs for emergency room staff, the number of patients taken to the emergency room by ambulances, the activities regarding the Fukuoka Medical Rally (FMR) and the disaster relief team (DRT) were also reviewed and analyzed. RESULTS: Departments of neurology, neurosurgery, emergency, and cardiology were opened sequentially, starting in 2003, with an establishment of facilities of an emergency room (ER), intensive care unit (ICU), stroke care unit (SCU), and coronary care unit (CCU). Regarding educational programs, lectures and demonstrations on basic and advanced life support techniques were given to all staff annually starting in 2004, and resident doctors completed rotations in the ER and the ICU for three months. FCH staff consistently obtained excellent results at the FMR. Ambulance crews attended lectures and received training on EM and intra-tracheal intubation. The numbers of patients taken by ambulance to FCH increased from 129 in 2002 to 2,316 in 2011. The DRT was dispatched to respond to disasters that occurred in Japan. CONCLUSIONS: As a secondary emergency hospital, FCH has developed a system to accept emergency patients. This project will contribute to the improvement of the EM system in the area.
Subject(s)
Emergency Service, Hospital/trends , Ambulances , Disaster Medicine/trends , Japan , Personnel, Hospital/educationABSTRACT
Presented data is about attendance means of deployment of field medical units and pieces of army-level medical services and disaster medicine Defense Ministry did not ensure compliance with requirements to create optimal conditions for highly effective work of the medical staff, placing the wounded, the use of modern aids and appliances. The prospects of creation of mobile unit for high-availability modular pre-fabricated on the basis of tent structures, pneumoconstructions and removable habitable bodies, containers, tents, pneumocovers till 2020 are analyzed. Livelihood systems provide armor protection against fragments, bullets, flames, damaging factors of chemical and biological weapons.
Subject(s)
Disaster Medicine/instrumentation , Disaster Medicine/methods , Hospitals, Military , Military Medicine/instrumentation , Military Medicine/methods , Mobile Health Units , Disaster Medicine/standards , Disaster Medicine/trends , Humans , Military Medicine/standards , Military Medicine/trendsABSTRACT
ABSTRACT: Disasters (both natural and man-made) are escalating worldwide, resulting in a significant increase in survivors with complex and long-term disabling injuries. Physical and rehabilitation medicine is integral in disaster management and should be included in all phases of the disaster management continuum, which comprise mitigation/prevention, preparation, response, and recovery phases. This Joel A. DeLisa Lecture was presented on February 11, 2021, at the Association of Academic Physiatrists Annual Scientific Meeting-"Physiatry 21." The lecture highlights the synergistic position of the International Society of Physical and Rehabilitation Medicine and the Disaster Rehabilitation Committee, to provide crucial leadership and governance role in liaison and coordination with the World Health Organization (and other stakeholders), to provide rehabilitation input during future disasters.
Subject(s)
Disaster Medicine/trends , Physical and Rehabilitation Medicine/trends , Disaster Medicine/methods , Humans , International Agencies , Physical and Rehabilitation Medicine/methods , Societies, MedicalSubject(s)
Bioterrorism , Disaster Medicine , Disaster Planning , Pandemics , Public Health , Security Measures , Centers for Disease Control and Prevention, U.S. , Disaster Medicine/organization & administration , Disaster Medicine/trends , Disaster Planning/organization & administration , Disaster Planning/trends , Global Health , Health , Humans , Public-Private Sector Partnerships , United States , Vulnerable PopulationsABSTRACT
ABSTRACTThis study analyzed and assessed publication trends in articles on "disaster medicine," using scientometric analysis. Data were obtained from the Web of Science Core Collection (WoSCC) of Thomson Reuters on March 27, 2017. A total of 564 publications on disaster medicine were identified. There was a mild increase in the number of articles on disaster medicine from 2008 (n=55) to 2016 (n=83). Disaster Medicine and Public Health Preparedness published the most articles, the majority of articles were published in the United States, and the leading institute was Tohoku University. F. Della Corte, M. D. Christian, and P. L. Ingrassia were the top authors on the topic, and the field of public health generated the most publications. Terms analysis indicated that emergency medicine, public health, disaster preparedness, natural disasters, medicine, and management were the research hotspots, whereas Hurricane Katrina, mechanical ventilation, occupational medicine, intensive care, and European journals represented the frontiers of disaster medicine research. Overall, our analysis revealed that disaster medicine studies are closely related to other medical fields and provides researchers and policy-makers in this area with new insight into the hotspots and dynamic directions. (Disaster Med Public Health Preparedness. 2019;13:165-172).