Abstract
BackgroundHuman external cargo (HEC) extrication during helicopter rescue missions is commonly used in mountain emergency medical services. Furthermore, longline or winch operations offer the opportunity to deliver professional medical care onsite. As the safety and quality of emergency medical care depends on training and experience, we aimed to investigate characteristics of mountain rescue missions with HEC.MethodsWe retrospectively reviewed all rescue missions conducted by Air Zermatt (a commercial rescue service in the high-alpine region of Switzerland) from January 2010 to September 2016.ResultsOut of 11,078 rescue missions 1137 (10%) required a HEC rescue. In 3% (n = 29) rapid sequence induction and endotracheal intubation, in 2% (n = 14) cardiopulmonary resuscitation, and in 0.4% (n = 3) a chest tube insertion had to be performed onsite prior to HEC extraction. The most common medical intervention onsite is analgesia or analgosedation, in 17% (n = 142) fentanyl or ketamine was used in doses of ≥ 0.2 mg or ≥ 50 mg, respectively.ConclusionsAs these interventions have to be performed in challenging terrain, with reduced personnel resources, and limited monitoring, our results point out the need for physicians onsite who are clinically experienced in these procedures and specially and intensively trained for the specific characteristics and challenges of HEC rescue missions.
Highlights
Survival of severely injured patients is time dependent
After exclusion of operation protocols with missing data (n = 51) or National Advisory Committee for Aeronautics (NACA) scores of 0–2 (n = 244), 842 (74%) protocols were included in the study
Accident and mission characteristics Most of the victims requiring Human external cargo (HEC) rescue were injured while practicing winter sports or recreational activities in the mountains during the summer
Summary
Survival of severely injured patients is time dependent. It is known that the use of a helicopter emergency medical service (HEMS) can significantly shorten rescue times, especially in mountainous areas [1], and can improve patient outcomes [2]. Besides reaching patients in difficult terrain and improving transport times, HEC-equipped HEMS can deliver highly trained medical providers to the scene, allowing the patient to receive time-critical medical interventions. This benefit of advanced medical care at the accident site must be balanced against the increased risk of incidents and fatalities for emergency medical care providers [4, 5]. As the safety and quality of emergency medical care depends on training and experience, we aimed to investigate characteristics of mountain rescue missions with HEC
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