Articles: emergency-medical-services.
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Multicenter Study
Development of a prediction model for emergency medical service witnessed traumatic out-of-hospital cardiac arrest: A multicenter cohort study.
To develop a prediction model for emergency medical technicians (EMTs) to identify trauma patients at high risk of deterioration to emergency medical service (EMS)-witnessed traumatic cardiac arrest (TCA) on the scene or en route. ⋯ We established a prediction model using variables from the PATOS database and measured them immediately after EMS personnel arrived to predict EMS-witnessed TCA. The model allows prehospital medical personnel to focus on high-risk patients and promptly administer optimal treatment.
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Observational Study
Secondary Public Safety Answering Points Delay the Response to Out of Hospital Cardiac Arrest.
Background: National guidelines recommend that high-performing systems process 9-1-1 calls within 60 s and deliver the first telecommunicator cardiopulmonary resuscitation compression within 90 s. The inability of systems employing secondary public safety answering points (PSAPs) to capture the call arrival timestamp at the primary PSAP is a challenge in out-of-hospital cardiac arrest response time research. Objective: We sought to measure the interval from call receipt at primary PSAPs to call answer at secondary PSAPs in metropolitan areas. ⋯ The median interval required to transfer a 9-1-1 caller from primary to secondary PSAPs was 41 s (IQR 31, 59), and 86 s at the 90th percentile. The 90th percentile performance level at individual agencies ranged from 63 s to 117 s. Conclusions: The primary to secondary PSAP transfer interval lengths observed in this study preclude these EMS agencies from meeting out-of-hospital cardiac arrest performance recommendations at the 90% percentile performance level.
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Tenets of high-quality out-of-hospital cardiac arrest (OHCA) resuscitation include early recognition and treatment of shockable rhythms, and minimizing interruptions in compressions. Little is known about how use of a mechanical compression device affects these elements. We hypothesize that use of such a device is associated with prolonged pauses in compressions to apply the device, and long compression intervals overall. ⋯ LUCAS use was associated with long compression intervals without identifiable pauses to assess for pulse or cardiac rhythm, and device application was associated with longer pauses than airway management or defibrillation. The clinical significance and effect on patient outcomes remain uncertain and require further study.
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In response to the COVID-19 pandemic, emergency medical services (EMS) and hospitals recognized the need for innovative programs addressing 9-1-1 utilization and ambulance transport to provide patient-centered, safe, cost-effective care. The ET3 (Emergency Triage, Treatment, and Transport) model provides flexibility and new payments to ambulance care teams for Medicare beneficiaries for alternate strategies of care. This includes providing treatment in place through telehealth after a 9-1-1 call and ambulance response. Our objective is to evaluate the implementation barriers of a telemedicine service to 9-1-1 responding ambulances providing treatment in place for low-acuity conditions. ⋯ An EMS telemedicine program can be successfully implemented in urban fire-based EMS systems for 9-1-1 responding ambulances. Barriers to implementation should be addressed at the paramedic, patient, technology, and program levels to improve success.
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The initial cardiac rhythm in out-of-hospital cardiac arrest (OHCA) portends different prognoses and affects treatment decisions. Initial shockable rhythms are associated with good survival and neurological outcomes but there is conflicting evidence for those who initially present with non-shockable rhythms. The aim of this study is to evaluate if OHCA with conversion from non-shockable (i.e., asystole and pulseless electrical activity) rhythms to shockable rhythms compared to OHCA remaining in non-shockable rhythms is associated with better survival and neurological outcomes. ⋯ In this ambidirectional cohort study, conversion from non-shockable to shockable rhythm was associated with improved survival and neurologic outcomes compared to rhythms that continued to be non-shockable. Continued advanced resuscitation may be beneficial for OHCA with subsequent conversion to shockable rhythms.