Articles: cardiac-arrest.
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Airway management is one of the most challenging aspects in the field of anesthesia. This is also the case when an emergency airway situation arises in the postoperative patient. These airway procedures are often classified as advanced with high complexity. This article aims to address emergency airway management in the post anesthesia care unit. ⋯ This article focuses on emergency airway management in the post anesthesia-care unit. A questionnaire for risk assessment and improvement of quality of care is presented. Different types of emergencies are discussed, i.e., due to medication, medical conditions (e.g., obstructive sleep apnea, pulmonary problems, stridor), procedural related emergencies (e.g., neurosurgery, head and neck surgery) and cardiac arrest. Each specific cause of emergency needs a different approach. A PACU airway rescue flowchart is presented.
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Curr Opin Crit Care · Dec 2024
ReviewRe-evaluating intra-cardiac arrest adjunctive medications and routes of drug administration.
This narrative review summarizes the evidence for the most commonly used intra-cardiac arrest adjunctive medications and routes of administration and discusses promising new therapies from preclinical animal models. ⋯ Large trials on intra-cardiac arrest administration of calcium and vasopressin with glucocorticoids have been performed. Several trials are ongoing that will provide valuable insights into the potential benefit of other intra-cardiac arrest medications such as bicarbonate as well as the potential benefit of intravenous or intraosseous vascular access.
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Curr Opin Crit Care · Dec 2024
ReviewManual mastery vs. mechanized magic: current opinions on manual vs. mechanical chest compressions.
Mechanical chest compression devices are increasingly deployed during cardiopulmonary resuscitation. We discuss the data supporting the use of mechanical chest compression devices during cardiac arrest and provide an opinion about the future of the technology. ⋯ Mechanical chest compression devices offer a solution to some of the human limiting factors of resuscitation, but have failed to demonstrate meaningful improvement in outcomes from cardiac arrest. Routine use of mechanical chest compression devices during cardiac arrest is not supported by evidence.
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J. Cardiothorac. Vasc. Anesth. · Dec 2024
ReviewModernization of Cardiac Advanced Life Support: Role and Value of Cardiothoracic Anesthesiologist Intensivist in Post-Cardiac Surgery Arrest Resuscitation.
Cardiac arrest in the postoperative cardiac surgery patient requires a unique set of management skills that deviates from traditional cardiopulmonary resuscitation and Advanced Cardiovascular Life Support (ACLS). Cardiac Advanced Life Support (CALS) was first proposed in 2005 to address these intricacies. The hallmark of CALS is early chest reopening and internal cardiac massage within 5 minutes of the cardiac arrest in patients unresponsive to basic life support. ⋯ As such, we have proposed a modified CALS approach to (1) adapt to a newer generation of cardiac surgery patients and (2) incorporate advanced resuscitative techniques. These include rescue-focused cardiac ultrasound to aid in the early identification of underlying pathology and guide resuscitation and early institution of extracorporeal cardiopulmonary resuscitation instead of chest reopening. While these therapies are not immediately available in all cardiac surgery centers, we hope this creates a framework to revise guidelines to include these recommendations to improve outcomes and how cardiac anesthesiologist intensivists' evolving role can aid resuscitation.
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Epinephrine is the most common medication used in cardiac arrest. Although the medication has been a mainstay of treatment over the last century, the utility and efficacy of epinephrine has been re-evaluated in recent years. This study aims to evaluate the literature describing the efficacy, timing, and dosing of epinephrine use in cardiac arrest. ⋯ Research on the optimal timing of epinephrine has shown that earlier administration of epinephrine in cardiac arrest is more likely to have improved outcomes compared to later administration and longer intervals, although there are still conflicting results on the improvement of neurological outcomes. Intravenous is the preferred route of administration for epinephrine, but new research suggests intramuscular administration may be beneficial. While epinephrine has been shown to improve the rates of return of spontaneous circulation and even survival to hospital discharge in several studies, epinephrine use may not provide patients who survive cardiac arrest with a meaningful neurological recovery.