HSR proceedings in intensive care & cardiovascular anesthesia
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HSR Proc Intensive Care Cardiovasc Anesth · Jan 2010
Bystander-initiated chest compression-only CPR is better than standard CPR in out-of-hospital cardiac arrest.
Out-of-hospital cardiac arrest has a low survival rate to hospital discharge. Recent studies compared a simplified form of CPR, based on chest compression alone versus standard CPR including ventilation. We performed systematic review and meta-analysis of randomized controlled trials, focusing on survival at hospital discharge. ⋯ Available evidence strongly support the superiority of bystander compression-only CPR. Reasons for the best efficacy of chest compression-only CPR include a better willingness to start CPR by bystanders, the low quality of mouth-to-mouth ventilation and a detrimental effect of too long interruptions of chest compressions during ventilation. Based on our findings, compression-only CPR should be recommended as the preferred CPR technique performed by untrained bystander.
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HSR Proc Intensive Care Cardiovasc Anesth · Jan 2010
Volatile anaesthetic myocardial protection: a review of the current literature.
Ischaemic preconditioning is a powerful innate adaptive phenomenon whereby brief periods of sublethal ischaemia result in marked tolerance to subsequent lethal ischaemia. Halogenated anaesthetics have been shown to mimic ischaemic preconditioning, modifying and attenuating ischaemia reperfusion injury. ⋯ These volatile anaesthetics have been shown to improve clinical outcomes and health economics following cardiac surgery, reducing intensive care and hospital stay. The evidence for the benefit of volatile anaesthetics in non-cardiac surgery is less robust and further large randomized controlled trials are required to elucidate this question.
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HSR Proc Intensive Care Cardiovasc Anesth · Jan 2010
Cerebral oximetry in cardiac and major vascular surgery.
We describe the development and current applications of cerebral oximetry (based on near-infrared reflectance spectroscopy) that can be used during cardiac and major vascular surgery to determined brain tissue oxygen saturation. There are presently three cerebral oximetry devices with FDA approval in the United States to measure and monitor cerebral tissue oxygen saturation. 1. INVOS (Somanetics Corporation, Troy, MI - recently COVIDIEN, Boulder, CO); FORE-SIGHT (CAS Medical Systems, Inc. ⋯ Minnesota, MN). All devices are portable, non-invasive and easy to use in operating room and intensive care unit. The data provided in these communication may provided information for improvement of perioperative neuromonitoring techniques, and may be crucial in the design of future clinical trials.