scholarly journals Kuala Lumpur train collision during the COVID-19 pandemic

2022 ◽  
Vol 17 (1) ◽  
Author(s):  
Alzamani M. Idrose ◽  
Fikri M. Abu-Zidan ◽  
Nurul Liana Roslan ◽  
Khairul Izwan M. Hashim ◽  
Saiyidi Mohd Azizi Mohd Adibi ◽  
...  
Keyword(s):  
Hospital Management ◽  
Standard Operating Procedure ◽  
Mass Casualty Incident ◽  
Mass Casualty ◽  
Base Station ◽  
Lessons Learned ◽  
Kuala Lumpur ◽  
Disaster Plan ◽  
Incident Command ◽  
Green Zone

Abstract Background Two city trains collided in an underground tunnel on 24 May 2021 at the height of COVID-19 pandemic near the Petronas Towers, Kuala Lumpur, Malaysia, immediately after the evening rush hours. We aim to evaluate the management of this mass casualty incident highlighting the lessons learned to be used in preparedness for similar incidents that may occur in other major cities worldwide. Methods Information regarding incident site and hospital management response were analysed. Data on demography, triaging, injuries and hospital management of patients were collected according to a designed protocol. Challenges, difficulties and their solutions were reported. Results The train's emergency response team (ERT) has shut down train movements towards the incident site. Red zone (in the tunnel), yellow zone (the station platform) and green zone (outside the station entrance) were established. The fire and rescue team arrived and assisted the ERT in the red zone. Incident command system was established at the site. Medical base station was established at the yellow zone. Two hundred and fourteen passengers were in the trains. Sixty-four of them were injured. They had a median (range) ISS of 2 (1–43), and all were sent to Hospital Kuala Lumpur (HKL). Six (9.4%) patients were clinically triaged as red (critical), 19 (29.7%) as yellow (semi-critical) and 39 (60.9%) as green (non-critical). HKL's disaster plan was activated. All patients underwent temperature and epidemiology link assessment. Seven (10.9%) patients were admitted to the hospital (3 to the ICU, 3 to the ward and 1 to a private hospital as requested by the patient), while the rest 56 (87.5%) were discharged home. Six (9.4%) needed surgery. The COVID-19 tests were conducted on seven patients (10.9%) and were negative. There were no deaths. Conclusions The mass casualty incident was handled properly because of a clear standard operating procedure, smooth coordination between multi-agencies and the hospitals, presence of a 'binary' system for 'COVID-risk' and 'non-COVID-risk' areas, and the modifications of the existing disaster plan. Preparedness for MCIs is essential during pandemics.

scholarly journals Kuala Lumpur Train Collision During the COVID-19 Pandemic

2021 ◽  
Author(s):  
Alzamani M. Idrose ◽  
Fikri M. Abu-Zidan ◽  
Nurul Liana Roslan ◽  
Khairul Izwan M. Hashim ◽  
Saiyidi Mohd Azizi Mohd Adibi ◽  
...  
Keyword(s):  
Hospital Management ◽  
Standard Operating Procedure ◽  
Mass Casualty Incident ◽  
Mass Casualty ◽  
Base Station ◽  
Lessons Learned ◽  
Kuala Lumpur ◽  
Disaster Plan ◽  
Incident Command ◽  
Green Zone

Abstract Background: Two city trains collided in an underground tunnel on 24th May 2021 at the height of Covid-19 pandemic near the Petronas Towers, Kuala Lumpur, Malaysia immediately after the evening rush hours. We aim to evaluate the management of this mass casualty incident highlighting the lessons learned to be used in preparedness for similar incidents that may occur in other major cities worldwide. Methods: Information regarding incident site and hospital management response were analysed. Data on demography, triaging, injuries and hospital management of patients were collected according to a designed protocol. Challenges, difficulties and their solutions were reported. Results: The train's emergency response team (ERT) has shut down train movements towards the incident site. Red zone (in the tunnel), yellow zone (the station platform) and green zone (outside the station entrance) were established. The fire and rescue team arrived and assisted the ERT in the red zone. Incident command system was established at the site. Medical base station was established at the yellow zone. 214 passengers were in the trains. 64 of them were injured. They had a median (range) ISS of 2 (1-43) and all were sent to Hospital Kuala Lumpur (HKL). Six (9.4%) patients were clinically triaged as red (critical), 19 (29.7%) as yellow (semi-critical) and 39 (60.9%) as green (non-critical). HKL's disaster plan was activated. All patients underwent temperature and epidemiology link assessment. Seven (10.9 %) patients were admitted to the hospital (3 to the ICU, 3 to the ward, and 1 to a private hospital as requested by the patient), while the rest 56 (87.5%) (56) were discharged home. Six (9.4%) needed surgery. The Covid-19 tests were conducted on seven patients (10.9%) and was negative There were no deaths. Conclusions: The mass casualty incident was handled properly because of a clear standard operating procedure, smooth coordination between multi-agencies and the hospitals, presence of a'binary' system for 'Covid risk' and 'non-Covid risk' areas, and the modifications of the existing disaster plan. Preparedness for MCIs is essential during pandemics.

Leadership as a Component of Crowd Control in a Hospital Dealing with a Mass-Casualty Incident: Lessons Learned from the October 2000 Riots in Nazareth

2007 ◽  
Vol 22 (6) ◽  
pp. 522-526 ◽  
Author(s):  
Moshe Pinkert ◽  
Yuval Bloch ◽  
Dagan Schwartz ◽  
Isaac Ashkenazi ◽  
Bishara Nakhleh ◽  
...  
Keyword(s):  
Emergency Services ◽  
Hospital Management ◽  
Hospital Staff ◽  
Mass Casualty Incident ◽  
Mass Casualty ◽  
Management Control ◽  
Lessons Learned ◽  
Great Effort ◽  
Public Health Agencies ◽  
Crowd Control

AbstractIntroduction:Crowd control is essential to the handling of mass-casualty incidents (MCIs).This is the task of the police at the site of the incident. For a hospital, responsibility falls on its security forces, with the police assuming an auxiliary role. Crowd control is difficult, especially when the casualties are due to riots involving clashes between rioters and police. This study uses data regarding the October 2000 riots in Nazareth to draw lessons about the determinants of crowd control on the scene and in hospitals.Methods:Data collected from formal debriefings were processed to identify the specifics of a MCI due to massive riots. The transport of patients to the hospital and the behavior of their families were considered.The actions taken by the Hospital Manager to control crowds on the hospital premises also were analyzed.Results:During 10 days of riots (01–10 October 2000), 160 casualties, including 10 severely wounded, were evacuated to the Nazareth Italian Hospital. The Nazareth English Hospital received 132 injured patients, including one critically wounded, nine severely wounded, 26 moderately injured, and 96 mildly injured. All victims were evacuated from the scene by private vehicles and were accompanied by numerous family members. This obstructed access to hospitals and hampered the care of the casualties in the emergency department. The hospital staff was unable to perform triage at the emergency department's entrance and to assign the wounded to immediate treatment areas or waiting areas. All of the wounded were taken by their families directly into the “immediate care” location where a great effort was made to prioritize the severely injured. In order to control the events, the hospital's managers enlisted prominent individuals within the crowds to aid with control. At one point, the mayor was enlisted to successfully achieve crowd control.Conclusions:During riots, city, community, and even makeshift leaders within a crowd can play a pivotal role in helping hospital management control crowds. It may be advisable to train medical teams and hospital management to recognize potential leaders, and gain their cooperation in such an event. To optimize such cooperation, community leaders also should be acquainted with the roles of public health agencies and emergency services systems.

Effectiveness of Hospital Staff Mass-Casualty Incident Training Methods: A Systematic Literature Review

2004 ◽  
Vol 19 (3) ◽  
pp. 191-199 ◽  
Author(s):  
Edbert B. Hsu ◽  
Mollie W. Jenckes ◽  
Christina L. Catlett ◽  
Karen A. Robinson ◽  
Carolyn Feuerstein ◽  
...  
Keyword(s):  
Literature Review ◽  
Hospital Staff ◽  
Mass Casualty Incident ◽  
Evaluation Methods ◽  
Mass Casualty ◽  
Lessons Learned ◽  
Current Evidence ◽  
Training Methods ◽  
Incident Command ◽  
Disaster Training

AbstractIntroduction:Recently, mass-casualty incident (MCI) preparedness and training has received increasing attention at the hospital level.Objectives:To review the existing evidence on the effectiveness of disaster drills, technology-based interventions and tabletop exercises in training hospital staff to respond to an MCI.Methods:A systematic, evidence-based process was conducted incorporating expert panel input and a literature review with the key terms: “mass casualty”, “disaster”, “disaster planning”, and “drill”. Paired investigators reviewed citation abstracts to identify articles that included evaluation of disaster training for hospital staff. Data were abstracted from the studies (e.g., MCI type, training intervention, staff targeted, objectives, evaluation methods, and results). Study quality was reviewed using standardized criteria.Results:Of 243 potentially relevant citations, twenty-one met the defined criteria. Studies varied in terms of targeted staff, learning objectives, outcomes, and evaluation methods. Most were characterized by significant limitations in design and evaluation methods. Seventeen addressed the effectiveness of disaster drills in training hospital staff in responding to an MCI, four addressed technology-based interventions, and none addressed tabletop exercises. The existing evidence suggests that hospital disaster drills are effective in allowing hospital employees to become familiar with disaster procedures, identify problems in different components of response (e.g., incident command, communications, triage, patient flow, materials and resources, and security) and provide the opportunity to apply lessons learned to disaster response. The strength of evidence on other training methods is insufficient to draw valid recommendations.Conclusions:Current evidence on the effectiveness of MCI training for hospital staff is limited. A number of studies suggest that disaster drills can be effective in training hospital staff. However, more attention should be directed to evaluating the effectiveness of disaster training activities in a scientifically rigorous manner.

Challenges of Major Incident Management When Excess Resources are Allocated: Experiences from a Mass Casualty Incident after Roof Collapse of a Military Command Center

2004 ◽  
Vol 19 (2) ◽  
pp. 179-184 ◽  
Author(s):  
Luis Romundstad ◽  
Knut Ole Sundnes ◽  
Johan Pillgram-Larsen ◽  
Geir K. Røste ◽  
Mads Gilbert
Keyword(s):  
Mass Casualty Incident ◽  
Mass Casualty ◽  
Major Incident ◽  
Incident Management ◽  
Field Hospital ◽  
Rescue Work ◽  
Incident Command ◽  
Set Up ◽  
Minor Injuries ◽  
Command Center

AbstractDuring a military exercise in northern Norway in March 2000, the snowladen roof of a command center collapsed with 76 persons inside. Twentyfive persons were entrapped and/or buried under snow masses. There were three deaths. Seven patients had serious injuries, three had moderate injuries, and 16 had minor injuries.A military Convalescence Camp that had been set up in a Sports Hall 125 meters from the scene was reorganized as a causality clearing station. Officers from the Convalescence Camp initially organized search and rescue. In all, 417 persons took part in the rescue work with 36 ambulances, 17 helicopters, three ambulance airplanes and one transport plane available. Two ambulances, five helicopters and one transport aircraft were used. Four patients were evacuated to a civilian hospital and six to a field hospital.The stretcher and treatment teams initially could have been more effectively organized. As resources were ample, this was a mass casualty, not a disaster. Firm incident command prevented the influx of excess resources.

scholarly journals Development and Implementation of First Hospital-Based Epidemic Outbreak Management Plan: Lessons Learned from Nepal

2019 ◽  
Vol 34 (s1) ◽  
pp. s56-s56
Author(s):  
Ashis Shrestha ◽  
Michael Khouli ◽  
Sumana Bajracharya ◽  
Rose House ◽  
Joshua Mugele
Keyword(s):  
National Level ◽  
Disaster Medicine ◽  
Lessons Learned ◽  
World Health ◽  
High Fidelity ◽  
Disaster Plan ◽  
Outbreak Management ◽  
Incident Command ◽  
Hospital Systems ◽  
Response Plan

Introduction:Patan Hospital, located in Kathmandu Valley, Nepal is a 400-bed hospital that has a long history of responding to natural disasters. Hospital personnel have worked with the Ministry of Health (MOH) and the World Health Organization (WHO) to develop standardized disaster response plans that were implemented in multiple hospital systems after the earthquake of 2015. These plans focused primarily on traumatic events but did not account for epidemics despite the prevalence of infectious diseases in Nepal.Aim:To develop and test a robust epidemic/pandemic response plan at Patan Hospital in Kathmandu that would be generalizable to other hospitals nationwide.Methods:Using the existing disaster plan in conjunction with public health and disaster medicine experts,we developed an epidemic response plan focusing on communication and coordination (between the hospital and MOH, among hospital administration and staff), logistics and supplies including personal protective equipment (PPE), and personnel and hospital incident command (IC) training. After development, we tested the plan using a high-fidelity, real-time simulation across the entire hospital and the hospital IC using actors and in conjunction with the MOH and WHO. We adjusted the plan based on lessons learned from this exercise.Results:Lessons learned from the high-fidelity simulation included the following: uncovering patient flow issues to avoid contamination/infection; layout issues with the isolation area, specifically accounting for donning/doffing of PPE; more sustained duration of response compared to a natural disaster with implications for staffing and supplies; communication difficulties unique to epidemics; need for national and regional surveillance and inter-facility planning and communication. We adjusted our plan accordingly and created a generalizable plan that can be deployed at an inter-facility and national level.Discussion:We learned that this process is feasible in resource-poor hospital systems. Challenges discovered in this process can lead to better national and system-wide preparedness.

scholarly journals MP01: Use of an unmanned aerial vehicle to provide situational awareness in a simulated mass casualty incident

CJEM ◽  
2018 ◽  
Vol 20 (S1) ◽  
pp. S40-S40
Author(s):  
A. K. Sibley ◽  
T. Jain ◽  
B. Nicholson ◽  
M. Butler ◽  
S. David ◽  
...  
Keyword(s):  
Situational Awareness ◽  
Optimal Strategies ◽  
Mass Casualty Incident ◽  
Mass Casualty ◽  
Treatment Area ◽  
Incident Command ◽  
Emergency Responders ◽  
Video Footage ◽  
Scene Management ◽  
Patient Localization

Introduction: Situational awareness (SA) is essential for maintenance of scene safety and effective resource allocation in mass casualty incidents (MCI). Unmanned aerial vehicles (UAV) can potentially enhance SA with real-time visual feedback during chaotic and evolving or inaccessible events. The purpose of this study was to test the ability of paramedics to use UAV video from a simulated MCI to identify scene hazards, initiate patient triage, and designate key operational locations. Methods: A simulated MCI, including fifteen patients of varying acuity (blast type injuries), plus four hazards, was created on a college campus. The scene was surveyed by UAV capturing video of all patients, hazards, surrounding buildings and streets. Attendees of a provincial paramedic meeting were invited to participate. Participants received a lecture on SALT Triage and the principles of MCI scene management. Next, they watched the UAV video footage. Participants were directed to sort patients according to SALT Triage step one, identify injuries, and localize the patients within the campus. Additionally, they were asked to select a start point for SALT Triage step two, identify and locate hazards, and designate locations for an Incident Command Post, Treatment Area, Transport Area and Access/Egress routes. Summary statistics were performed and a linear regression model was used to assess relationships between demographic variables and both patient triage and localization. Results: Ninety-six individuals participated. Mean age was 35 years (SD 11), 46% (44) were female, and 49% (47) were Primary Care Paramedics. Most participants (80 (84%)) correctly sorted at least 12 of 15 patients. Increased age was associated with decreased triage accuracy [-0.04(-0.07,-0.01);p=0.031]. Fifty-two (54%) were able to localize 12 or more of the 15 patients to a 27x 20m grid area. Advanced paramedic certification, and local residency were associated with improved patient localization [2.47(0.23,4.72);p=0.031], [-3.36(-5.61,-1.1);p=0.004]. The majority of participants (78 (81%)) chose an acceptable location to start SALT triage step two and 84% (80) identified at least three of four hazards. Approximately half (53 (55%)) of participants designated four or more of five key operational areas in appropriate locations. Conclusion: This study demonstrates the potential of UAV technology to remotely provide emergency responders with SA in a MCI. Additional research is required to further investigate optimal strategies to deploy UAVs in this context.

An algorithm for the evaluation and management of red, yellow, and green zone patients during a botulism mass casualty incident

2009 ◽  
Vol 4 (4) ◽  
pp. 192-198 ◽  
Author(s):  
Paul Rega MD, FACEP ◽  
Kelly Burkholder-Allen, RN, MSEd ◽  
Christopher Bork, PhD, PT, EMT-B, FASAHP
Keyword(s):  
Botulinum Toxin ◽  
Mass Casualty Incident ◽  
Mass Casualty ◽  
Healthcare Personnel ◽  
Toxic Substances ◽  
Initial Management ◽  
Green Zone

Botulinum toxin is one of the most toxic substances known to humankind. It is one among the six Category A agents in the CDC bioterrorism lexicon. This suggests that, while the possibility of a botulism mass casualty incident (MCI) is remote, its unique acute and long-term ramifications must be addressed and planned for. However, an in-depth knowledge of the disease and its tactical management in the acute MCI phase is inconsistent or superficial among healthcare personnel. Therefore, an algorithm has been developed to assist first receivers with the initial management of multiple probable and potential botulism patients when equipment resources are strained and when expert personnel are not readily available. The algorithm is specifically structured to assist with the identification and management of potential respiratory deterioration of suspected botulism patients.

scholarly journals The Experience of a Mass Casualty Incident Call in a Tertiary Hospital after the 2018 Hualien Earthquake

2019 ◽  
Vol 34 (s1) ◽  
pp. s131-s131
Author(s):  
Hsing Chia Cheng ◽  
Kuang Yu Niu ◽  
Ming Han Ho
Keyword(s):  
Emergency Department ◽  
Healthcare Providers ◽  
Task Assignment ◽  
Tertiary Hospital ◽  
Mass Casualty Incident ◽  
Mass Casualty ◽  
Incident Command System ◽  
Incident Command ◽  
Efficiency And Effectiveness ◽  
Training Courses

Introduction:After a 6.0 magnitude earthquake struck Hualien on February 6, 2018, over one hundred and fifty patients crammed into the emergency department of a nearby tertiary hospital within two hours. The mass casualty incident (MCI) call was activated, and over 300 related personnel responded to the call and engaged with the MCI management.Aim:This research aimed to analyze the practice of an MCI call and to form the strategies to improve its efficiency and effectiveness.Methods:The research was conducted in a tertiary hospital in Hualien, Taiwan. Questionnaires regarding the practice of the MCI call were sent out to the healthcare providers in the emergency department who responded to that MCI operation.Results:Thirty-seven responders in the emergency department were involved in this study. 78% had participated in training courses for hospital incident command system (HICS) or MCI management before this event. On arrival at the emergency department, 69.4% of the responders were aware of the check-in station and received a clear task assignment and briefing. During the operation, 25.7% reported the lack of confidence carrying out the assigned tasks and 54.1% of the participants experienced great stress (stress score over 7 out of 10).Discussion:MCI is an uncommon event for hospital management. It is universally challenging owing to its unpredictable and time-sensitive nature. Furthermore, the administration could be further complicated by the associated disasters. Despite regular exercises and drills, there are still a significant number of participants experiencing stress and confusion during the operation. The chaotic situation may further compromise the performance of the participants. This study showed that optimizing task briefing and on-site directions may improve the performance of the MCI participants.

scholarly journals (A108) Hospital Disaster Planning: The Structured Approach

2011 ◽  
Vol 26 (S1) ◽  
pp. s30-s30
Author(s):  
G.E.A. Khalifa
Keyword(s):  
Emergency Preparedness ◽  
Disaster Preparedness ◽  
Disaster Response ◽  
Emergency Services ◽  
Disaster Planning ◽  
Mass Casualty Incident ◽  
Mass Casualty ◽  
Disaster Plan ◽  
Preparedness Plan ◽  
Hospital Disaster Preparedness

BackgroundDisasters and incidents with hundreds, thousands, or tens of thousands of casualties are not generally addressed in hospital disaster plans. Nevertheless, they may occur, and recent disasters around the globe suggest that it would be prudent for hospitals to improve their preparedness for a mass casualty incident. Disaster, large or small, natural or man-made can strike in many ways and can put the hospital services in danger. Hospitals, because of their emergency services and 24 hour a day operation, will be seen by the public as a vital resource for diagnosis, treatment, and follow up for both physical and psychological care.ObjectivesDevelop a hospital-based disaster and emergency preparedness plan. Consider how a disaster may pose various challenges to hospital disaster response. Formulate a disaster plan for different medical facility response. Assess the need for further changes in existing plans.MethodsThe author uses literature review and his own experience to develop step-by-step logistic approach to hospital disaster planning. The author presents a model for hospital disaster preparedness that produces a living document that contains guidelines for review, testing, education, training and update. The model provides the method to develop the base plan, functional annexes and hazard specific annexes.

scholarly journals Hospital Disaster Preparedness in Switzerland Over a Decade: A National Survey

2018 ◽  
Vol 13 (03) ◽  
pp. 433-439
Author(s):  
Simone Dell’Era ◽  
Olivier Hugli ◽  
Fabrice Dami
Keyword(s):  
Public Health ◽  
Health Care ◽  
Disaster Preparedness ◽  
Mass Casualty Incident ◽  
Mass Casualty ◽  
Disaster Medicine ◽  
Disaster Plan ◽  
Root Cause ◽  
Swiss Health ◽  
Hospital Disaster Preparedness

ABSTRACTObjectiveThe present study aimed to provide a comprehensive assessment of Swiss hospital disaster preparedness in 2016 compared with the 2006 data.MethodsA questionnaire was addressed in 2016 to all heads responsible for Swiss emergency departments (EDs).ResultsOf the 107 hospitals included, 83 (78%) returned the survey. Overall, 76 (92%) hospitals had a plan in case of a mass casualty incident, and 76 (93%) in case of an accident within the hospital itself. There was a lack in preparedness for specific situations: less than a third of hospitals had a specific plan for nuclear/radiological, biological, chemical, and burns (NRBC+B) patients: nuclear/radiological (14; 18%), biological (25; 31%), chemical (27; 34%), and burns (15; 49%), and 48 (61%) of EDs had a decontamination area. Less than a quarter of hospitals had specific plans for the most vulnerable populations during disasters, such as seniors (12; 15%) and children (19; 24%).ConclusionsThe rate of hospitals with a disaster plan has increased since 2006, reaching a level of 92%. The Swiss health care system remains vulnerable to specific threats like NRBC. The lack of national legislation and funds aimed at fostering hospitals’ preparedness to disasters may be the root cause to explain the vulnerability of Swiss hospitals regarding disaster medicine. (Disaster Med Public Health Preparedness. 2019;13:433-439)

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