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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The HEARTSafe Communities program promotes community efforts to improve systems for treating sudden cardiac arrest (SCA). The study hypothesis was that the rates of SCA survival to admission, discharge, and discharge with CPC score 1 or 2 are higher in HEARTSafe-designated communities than non-designated communities in Connecticut, USA. Secondary outcomes included bystander CPR and AED application. ⋯ SCA survival rates do not differ between HEARTSafe and non-HEARTSafe communities in Connecticut. SCA patients in HEARTSafe communities are no more likely to receive bystander AED application or bystander CPR.
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The European Resuscitation Council guidelines recommend a slow rate of rewarming of 0.25 °C/h-0.5 °C/h for out-of-hospital cardiac arrest (OHCA) patients receiving therapeutic hypothermia (TH). Conversely, a very slow rewarming of 1 °C/day is generally applied in Japan. The rewarming duration ranged from less than 24 h up to more than 50 h. No randomized control trials have examined the optimal rewarming speed for TH in OHCA patients. Therefore, we examined the association between the rewarming duration and neurological outcomes in OHCA patients who received TH. ⋯ A longer rewarming duration was significantly associated with and was an independent predictor of favorable neurological outcomes in OHCA patients who received TH.
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The primary purpose of an avalanche airbag is to prevent burial during an avalanche. Approximately twenty percent of avalanche victims deploying airbags become critically buried, however. One avalanche airbag actively deflates three minutes after deployment, potentially creating an air pocket. Our objective was to evaluate this air pocket and its potential to prevent asphyxiation. ⋯ The avalanche airbag under study creates an air pocket that appears to delay asphyxia, which could allow extra time for rescue and improve overall survival of avalanche victims.