Minerva anestesiologica
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Following successful resuscitation from cardiac arrest, neurological impairment as well as other types of organ dysfunction still cause significant morbidity and mortality. The whole-body ischemia-reperfusion response that occurs during cardiac arrest and subsequent restoration of systemic circulation results in a series of pathophysiological processes that have been termed the post-cardiac arrest syndrome. The components of the post-cardiac arrest syndrome comprise post-cardiac arrest brain injury, post-cardiac arrest myocardial dysfunction, the systemic ischemia-reperfusion response and persistent precipitating pathology. ⋯ Particular attention should be given to evidence of cardiac ischemia and referral for urgent angiography and percutaneous coronary intervention, if appropriate, should be available to all. Optimizing neurological recovery will involve seizure control, management of hyperglycemia and therapeutic hypothermia. Prognostication following cardiac arrest remains difficult, but there are diagnostic tests that may be used with some degree of accuracy.
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Neurally adjusted ventilatory assist (NAVA) is a form of partial ventilatory support wherein the machine applies positive pressure to the airway opening throughout each inspiration. In contrast to all other modes of ventilation, which adopt conventional pneumatic signals (flow, volume, and airway pressure) to drive and control the ventilator operation, NAVA utilizes the electrical activity of the diaphragm, which is the best available signal to estimate the respiratory drive and to trigger on and cycle off the delivery of the mechanical assistance and regulate its amount and intra-breath profile. ⋯ These investigations indicate that this novel mode is efficient in unloading the respiratory muscles and maintaining adequate gas exchange while improving the patient-ventilator interaction. This review article aims to summarize the results of the studies published to date on this topic.