Emergency medicine clinics of North America
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Sudden cardiac arrest has a large public health impact, especially, because its incidence continues to increase across the globe. Data for low-to-middle income countries is incomplete. CPR training and automatic external defibrillator availability are important points for focusing future efforts.
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A structured approach to postcardiac arrest care is needed. Although immediate goals include obtaining a blood pressure reading and ECG immediately after return of spontaneous circulation, other more advanced goals include minimizing CNS injury, managing cardiovascular dysfunction, reducing systemic ischemic/reperfusion injury, and identifying and treating the underlying cause to the arrest. This article summarizes the current understanding of the hemodynamic, neurologic, and metabolic abnormalities encountered in postarrest patients.
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Rapid diagnostic tools available to the emergency physician caring for cardiac arrest patients are limited. Focused ultrasound (US), and in particular, focused echocardiography, is a useful tool in the evaluation of patients in cardiac arrest. ⋯ US may also be used to aid in procedural guidance. Recently, focused transesophageal echocardiography has been used in the emergency department setting.
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There is no single resuscitation strategy that will uniformly improve cardiac arrest outcomes. Traditional vital signs cannot be relied on in cardiac arrest, and the use of continuous capnography, regional cerebral tissue oxygenation, and continuous arterial monitoring are options for use early defibrillation are critical elements of resuscitation. Cardio-cerebral perfusion may be improved with the use of active compression-decompression CPR, an impedance threshold device, and head-up CPR. In refractory shockable arrest, if ECPR is not an option, consider changing defibrillator pad placement and/or double defibrillation, additional medication options, and possibly stellate ganglion block.
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Appropriate airway management is critical to successful cardiac arrest resuscitation. However, the timing and method of airway management during cardiac arrest have traditionally been guided by expert and consensus opinion informed by observational data. In the last 5 years, recent studies, including several randomized controlled trials (RCTs), have provided additional clarity to help guide airway management. This article will review both current data and guidelines for airway management in cardiac arrest, a stepwise approach to airway management, the utility of various airway adjuncts, and best practices for oxygenation and ventilation in the peri-arrest period.