OBJECTIVETo review the research methods of mass casualty incident (MCI) systematically and introduce the concept and characteristics of complexity science and artificial system, computational experiments and parallel execution (ACP) method.

DATA SOURCESWe searched PubMed, Web of Knowledge, China Wanfang and China Biology Medicine (CBM) databases for relevant studies. Searches were performed without year or language restrictions and used the combinations of the following key words: "mass casualty incident", "MCI", "research method", "complexity science", "ACP", "approach", "science", "model", "system" and "response".

STUDY SELECTIONArticles were searched using the above keywords and only those involving the research methods of mass casualty incident (MCI) were enrolled.

RESULTSResearch methods of MCI have increased markedly over the past few decades. For now, dominating research methods of MCI are theory-based approach, empirical approach, evidence-based science, mathematical modeling and computer simulation, simulation experiment, experimental methods, scenario approach and complexity science.

CONCLUSIONSThis article provides an overview of the development of research methodology for MCI. The progresses of routine research approaches and complexity science are briefly presented in this paper. Furthermore, the authors conclude that the reductionism underlying the exact science is not suitable for MCI complex systems. And the only feasible alternative is complexity science. Finally, this summary is followed by a review that ACP method combining artificial systems, computational experiments and parallel execution provides a new idea to address researches for complex MCI.

On July 4, 2021, a Philippine C-130 military plane carrying 104 personnel crashed in Patikul, Sulu after attempting to land at Jolo Airport, killing 53 individuals and injuring 50 others, both on board and on the ground. Some of the injured sustained multiple injuries, including fractures and burns. This incident triggered a swift response from various agencies. Mass casualty incidents, including those with multiple burn-injured patients, pose significant challenges to health care systems and can lead to high morbidity and mortality rates.1 2 3 Burn injuries, which account for at least 200,000 deaths annually, are a major global public health issue, particularly in low-resource settings, and can easily overwhelm the limited burn resources available.4 5 6 Efficient management of mass casualty incidents, proper triage decisions, and sound health care planning are crucial for optimizing patient outcomes and matching potential needs with available resources.7 Burn mass casualty incidents (BMCI) are incidents that involve at least three burn victims. These incidents, whether due to natural or human-caused accidents, can occur anywhere and anytime. The injuries are unpredictable and involve a large number of victims, requiring a significant consumption of logistics and medical attention. Medical response tasks in massive burn injuries are much more challenging than those required in separate burn incidents due to the unexpected nature of the events and the simultaneous involvement of a large number of patients. Such situations require the immediate mobilization of a significant number of personnel, resources, and facilities to address upcoming issues. In this article, we describe the management of BMCIs based on our experiences in responding to the Patikul incident. We elucidate the strategies that are put into action and offer insights aimed at improving protocols for handling BMCIs in the future. Our goal is to contribute to the body of knowledge in this field and aid in the development of more effective responses to such critical situations.
Mass Casualty Incidents ; Burns

A burn mass casualty incident (BMCI), an incident that involves at least three burn victims with severe injuries,1 presents several unique challenges. In a mass casualty event, between 25 and 30 percent of those injured can sustain moderate-to-severe burn injuries.2 Management of burn patients necessitates a significant amount of health resources and logistical support, along with prompt and high-quality care to optimize the functional and cosmetic outcomes of severely injured patients. While some developed countries have sound disaster management plans, many countries where most BMCIs occur lack such well-established plans.3 The effective management of BMCIs is crucial for positive patient outcomes. Given resource scarcity, especially in geographically isolated and disadvantaged areas, comprehensive mitigation and preparedness strategies are essential. These strategies must address worst-case scenarios that may challenge the existing internal protocols, especially at the local level.4 The surge in health care facility capacity during BMCIs can quickly overwhelm local and regional resources, from prehospital care to specialized burn centers. In the Philippines, disaster response levels and adequacy may vary widely among different regions and local government units (LGU). While the Department of Health has issued guidelines for health emergency and disaster response management,5 there are currently no policies or guides on specifically addressing preincident planning for BMCIs. The aim of this article is to recommend policies that will potentially improve the current health care approach to BMCIs.
Mass Casualty Incidents ; Burns

A modern Disaster Medical Assistance Team (DMAT) is a group of professional and para-professional medical personnel organized to provide rapid-response medical care during a disaster situation. DMAT is a part of the disaster response system that acts as a trained, mobile, self-contained medical team in the acute phase of a disaster to provide necessary services such as triage, treatment, and transportation of injured patients in the devastated disaster area. The timeliness of DMAT response is critical to the administration of medical care and reduction of immediate mortality in disaster. While the number of members in a DMAT may vary between different nations. A small-scale DMAT is often composed of five to six people and there is good reason to consider this an effective unit for early disaster medical responses. An adequate structure and training system should be provided for Korean DMAT development in the near future.
Disasters* ; Humans ; Mass Casualty Incidents ; Medical Assistance* ; Mortality ; Transportation ; Triage

OBJECTIVETo evaluate the technical characteristics and application of mass casualty incident (MCI) primary triage (PT) methods applied in China.

DATA SOURCESChinese literature was searched by Chinese Academic Journal Network Publishing Database (founded in June 2014). The English literature was searched by PubMed (MEDLINE) (1950 to June 2014). We also searched Official Websites of Chinese Central Government's (http://www.gov.cn/), National Health and Family Planning Commission of China (http://www.nhfpc.gov.cn/), and China Earthquake Information (http://www.csi.ac.cn/).

STUDY SELECTIONWe included studies associated with mass casualty events related to China, the PT applied in China, guidelines and standards, and application and development of the carding PT method in China.

RESULTSFrom 3976 potentially relevant articles, 22 met the inclusion criteria, 20 Chinese, and 2 English. These articles included 13 case reports, 3 retrospective analyses of MCI, two methods introductions, three national or sectoral criteria, and one simulated field testing and validation. There were a total of 19 kinds of MCI PT methods that have been reported in China from 1950 to 2014. In addition, there were 15 kinds of PT methods reported in the literature from the instance of the application.

CONCLUSIONSThe national and sectoral current triage criteria are developed mainly for earthquake relief. Classification is not clear. Vague criteria (especially between moderate and severe injuries) operability are not practical. There are no triage methods and research for children and special populations. There is no data and evidence supported triage method. We should revise our existing classification and criteria so it is clearer and easier to be grasped in order to build a real, practical, and efficient PT method.

Disasters are unpredictable and unavoidable. The definition of disaster is a serious disruption of the functioning of society, causing widespread human, material, or environmental losses that exceed the ability of affected society to cope using only its own resources. Disaster medicine is a discipline resulting from combination of emergency medicine and disaster management. The field of disaster medicine involves the study of subject matter from multiple medical disciplines, and disaster medicine presents unique ethical situations not seen in other areas of medicine. Disaster can be classified into two categories, natural disaster and manmade disaster, each type of disaster has its own characteristics. Disaster management has a cycle of 4 activities, preparedness, response, recovery, and prevention/mitigation. Disaster medicine specialists have a role in each part of this cycle. To achieve effective disaster response, the National Disaster Life Support Foundation suggests the DISASTER Paradigm(TM), which consists of detection, incident command, safety and security, assess hazards, support, triage and treatment, evacuation, and recovery.
Disaster Medicine ; Disaster Planning ; Disasters* ; Emergencies ; Emergency Medicine ; Humans ; Mass Casualty Incidents ; Specialization ; Triage

BACKGROUND: The fire victims are affected not only by bum and trauma but also carbon monoxide(CO) and hypoxia. It may be useful to triage mass casualties of fire field that preestimate the victim's injury sevrrities by experiments of measuring the concentration of CO and oxygen according to time progression. METHOD: We prepared one house of apartment as like usual residental environment. The mesuring of concentrations of CO and oxygen was started from firing. RESULT: 3.8 Min. after firing: CO concentration(0.007%) was reached to the level that can give rise to spontaneous headache. 5 Min.: The concentration of CO was incerased. At this level(0.012%), the victims of fire may be suffered severe headache inspite of mild movement. 5.5 Min.: At this time,0.02% of CO concentration that the victims can't escape by themselves was checked. 6 Min.; 0.08% was measured, almost patients may be unconscious and the symptoms will be more severe at this CO concentration because of hypoxia.6.4 Min.: It was absolutly impossible to be survival at this time due to incresing of CO concentration(0.195%) and decreasing of O2 concentration(5%). CONCLUSION: It is within 5.5 Min. that the patient can escape by themselves, and impossible to be survival more than 6.5 Min. in fire field. Rescuers and EMTs must consider time factor as well as sysmtoms of patients.
Anoxia ; Carbon* ; Fires* ; Headache ; Humans ; Mass Casualty Incidents ; Oxygen ; Time Factors ; Triage ; United Nations

We aimed to determine the scientific framework for research on disaster and mass casualty incident (MCI) in Korea, especially Korean terminology, feasible definition, and epidemiologic indices. The two staged policy Delphi method was performed by instructors of National Disaster Life Support (NDLS(R)) with the constructed questionnaire containing items based on the literature review. The first-stage survey was conducted by 11 experts through two rounds of survey for making issue and option. The second-stage survey was conducted by 35 experts for making a generalized group based consensus. Experts were selected among instructors of National Disaster Life Support Course. Through two staged Delphi survey experts made consensus: 1) the Korean terminology "jaenan" with "disaster" and "dajung-sonsang-sago" with "MCI"; 2) the feasible definition of "disaster" as the events that have an effect on one or more municipal local government area (city-county-district) or results in > or = 10 of death or > or = 50 injured victims; 3) the feasible definition of MCI as the events that result in > or = 6 casualties including death; 4) essential 31 epidemiologic indices. Experts could determine the scientific framework in Korea for research on disaster medicine, considering the distinct characteristics of Korea and current research trends.
Adult ; *Disaster Planning ; Female ; Humans ; Male ; Mass Casualty Incidents/*classification ; Questionnaires ; Republic of Korea ; Terminology as Topic

PURPOSE: This study describes the disaster medical responses to the disaster scene of long-distance on a highway; 106-vehicle chain collision on Yeong-Jong Grand Bridge on February 11, 2015 and we discuss the disaster communication by social media. METHODS: Records of disaster medical responses from records of relevant organizations and messages of social media were collected. Medical records and the results of triage were reviewed retrospectively. Casualties were categorized into four groups according to results of triage; Red- Yellow-Green-Black. Kappa statistics were used to measure agreement between results of triage and casualties' outcome. RESULTS: Disaster Medical Assistant Team (DMAT) arrived on the scene one hour after accidents occurred. DMAT settled in a temporary base camp in the middle part of the scene and did not build an emergency air shelter. DMATs from four hospitals were separated into four mobile units of DMAT and they joined the rescue team. Disaster communication by social media was useful. Seventy six casualties were transported and two died; 28.9% of casualties were transported to the nearest regional emergency medical center; 20.0% of red casualties were transported to a higher level of care again. Kappa statistics were 0.122 (95% CI, - 0.049~0.291; p=0.094). CONCLUSION: In the disaster scene of long-distance on a highway, adequate location of triage and treatment area may be the front or rear of the scene and separation of DMATs can be helpful. Disaster communication by social media was helpful. Education and policies will be required for more effective triage and dispersion of casualties.
Disasters* ; Education ; Emergencies ; Mass Casualty Incidents ; Medical Assistance ; Medical Records ; Retrospective Studies ; Social Media* ; Triage*

A study of the dental professional action to the struggle for the mass casualty and disaster events was reported. The dental professional first aid and care, triage of casualties, maxillofacial surgery, forensic odontology to the struggle for the mass casualty and disaster events were discussed. The dental profession personals must make the more specific contribution in the mass casualty and disaster events in the future.
Dentists ; Disaster Planning ; Disasters ; Humans ; Mass Casualty Incidents ; Professional Role ; Triage