Resuscitation
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High quality cardiopulmonary resuscitation (CPR) is critical to improve survival from cardiac arrest. While low dose- high frequency case-based training enhances CPR skill retention, it is unclear if this training method is feasible in a clinical environment and if it yields improved clinical CPR quality during in-hospital cardiac arrest. We evaluated the implementation of a novel platform providing low dose- high frequency psychomotor CPR training and its impact upon CPR quality. ⋯ Low dose-high frequency case based psychomotor CPR training is feasible in a clinical setting with high compliance. In two nursing units, this method of training resulted in enhanced CPR skill retention and improved in-hospital clinical CPR quality.
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Initiation of venoarterial extracorporeal membrane oxygenation (ECMO) under ongoing cardiopulmonary resuscitation (eCPR) in patients with refractory cardiac arrest may improve otherwise deleterious outcome. In general, the duration of mechanical resuscitation from collapse to ECMO ranges from 40 to 70 min. CPR-related injuries are reported frequently in non-eCPR patients. We wanted to quantify CPR-related injuries in eCPR patients. ⋯ A full-body CT scan performed after eCPR revealed substantial clinically significant findings. Therefore, it might be reasonable to routinely perform a full-body CT in all eCPR patients.
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In-hospital cardiac arrest (IHCA) is common and associated with high mortality. Frailty is increasingly recognized as a predictor of worse prognosis among critically ill patients, but its association with outcomes and resource utilization following IHCA is unknown. ⋯ Frail individuals who experience an IHCA are more likely to die in hospital or be discharged to long-term care, and less likely to achieve ROSC in comparison with individuals who are not frail. The hospital costs per-survivor of IHCA are increased when frailty is present.