Prehospital and disaster medicine
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In the prehospital setting, the emergency care provider must anticipate that some patients will manifest with difficult airways. The use of video laryngoscopy to secure an airway in the prehospital setting has not been explored widely, but has the potential to be a useful tool. This article briefly reviews some of the major video laryngoscopes on the market and their usefulness in the prehospital setting. ⋯ Direct laryngoscopy always should be retained as a primary skill; however, the video laryngoscope has the potential to be a good primary choice for the patient with potential cervical spine injuries or limited jaw or spine mobility, and in the difficult-to-access patient. The role of video laryngoscopes in securing an airway in head and neck trauma victims in the prehospital setting has yet to be determined, but offers interesting possibilities. Further clinical studies are necessary to evaluate its role in airway management by prehospital emergency medical services.
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Prehosp Disaster Med · May 2009
Comparative Study Historical ArticleAir-medical transport experience in emergency medicine residencies: then and now.
The appropriate activation and effective utilization of air-medical transport (AMT) services is an important skill for emergency medicine physicians in the United States. Previous studies have demonstrated variability with regards to emergency medical services (EMS) experience during residency training. This study was designed to evaluate the nature and extent of AMT training of the emergency medicine residency programs in the United States. ⋯ A majority of emergency medicine residency programs offer AMT experience that includes both scene responses and inter-facility transports. The role of residents during AMT training varies widely, as does the timing of their experiences during residency. The geographical locations of programs do not appear to impact the availability of AMT training.
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Prehosp Disaster Med · May 2009
CommentRole of air-medical evacuation in mass-casualty incidents--a train collision experience.
On 21 June 2005, a passenger train collided with a truck near Revadim, Israel. The collision resulted in a multiple-scene mass-casualty incident in an area characterized by difficult access and a relatively long distance from trauma centers. A major disaster response was initiated by civilian and military medical forces including the Israeli Air Force (IAF) Search and Rescue teams. The air-medical evacuation from the accident site to the trauma centers, the activities of the airborne medical teams, and the lessons learned from this event are described in this report. ⋯ Air-medical evacuation during this unique event enabled prompt transportation of casualties from the scene to trauma centers and provided reasonable distribution of patients between various centers in the region. This operation highlighted the necessity for flexibility in medical decision-making and the need for nonconventional solutions regarding crew compositions during management of an airborne evacuation in similar settings. Air-medical evacuation should be considered as a part of responses to mass-casualty incidents, especially when the site is remote or characterized by accessibility difficulties.
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Prehosp Disaster Med · May 2009
CommentComparison overview of prehospital errors involving road traffic fatalities in Victoria, Australia.
Until early 2003, the Consultative Committee on Road Traffic Fatalities (CCRTF) in Victoria, Australia was the main body investigating and publishing data about prehospital errors resulting from road traffic fatalities. The objective of this study was to identify and interpret prehospital error rate trends associated with road traffic fatalities during a 10-year period of the CCRTF reports. ⋯ This study demonstrates that there has been an increase in prehospital error rates, especially from 2000, which coincided with the introduction of ALS for paramedics and the state trauma system in Victoria, even though the state trauma system had an overall decrease in error rates.
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Prehosp Disaster Med · May 2009
The "RTR" medical response system for nuclear and radiological mass-casualty incidents: a functional TRiage-TReatment-TRansport medical response model.
Developing a mass-casualty medical response to the detonation of an improvised nuclear device (IND) or large radiological dispersal device (RDD) requires unique advanced planning due to the potential magnitude of the event, lack of warning, and radiation hazards. In order for medical care and resources to be collocated and matched to the requirements, a [US] Federal interagency medical response-planning group has developed a conceptual approach for responding to such nuclear and radiological incidents. The "RTR" system (comprising Radiation-specific TRiage, TReatment, TRansport sites) is designed to support medical care following a nuclear incident. ⋯ Assembly Centers for displaced or evacuating persons are predetermined and spontaneous sites safely outside of the perimeter of the incident, for use by those who need no immediate medical attention or only minor assistance. Decontamination requirements are important considerations for all RTR, Medical Care, and Assembly Center sites and transport vehicles. The US Department of Health and Human Services is working on a long-term project to generate a database for potential medical care sites and assembly centers so that information is immediately available should an incident occur.