Articles: mechanical-ventilation.
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Adults and children who require extracorporeal membrane oxygenation for respiratory failure remain at risk for ongoing lung injury if ventilator management is not optimized. This review serves as a guide to assist the bedside clinician in ventilator titration for patients on extracorporeal membrane oxygenation, with a focus on lung-protective strategies. Existing data and guidelines for extracorporeal membrane oxygenation ventilator management are reviewed, including non-conventional ventilation modes and adjunct therapies.
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Continuous aerosolized β2 agonist, namely albuterol, is the most commonly used therapy for critical asthma. Benzalkonium chloride is a preservative present in some formulations of aerosolized albuterol solutions that can induce bronchospasm. Recent studies have shown that inhalation of albuterol containing benzalkonium chloride might induce unintended bronchoconstriction and poor outcomes. This study aimed to investigate whether using albuterol solutions containing benzalkonium chloride results in prolonged hospital length of stay (LOS). ⋯ In contrast to published literature showing that benzalkonium chloride may be associated with a longer duration of continuous albuterol nebulization and hospital LOS, our study demonstrated that benzalkonium chloride-containing albuterol is safe for continuous nebulization in critically ill children and not associated with worse outcomes.
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Anesthesia and analgesia · Jun 2023
Restricted Polypharmacy Compared to Usual Care in Mechanically Ventilated Patients: A Retrospective Cohort Study.
Adverse effects of excessive sedation in critically ill mechanically ventilated patients are well described. Although guidelines strongly recommend minimizing sedative use, additional agents are added as infusions, often empirically. The tradeoffs associated with such decisions remain unclear. ⋯ Compared with UC, RP was associated with more coma- and ventilator-free days. Restricting addition of adjunct infusions to propofol may represent a viable strategy to reduce duration of coma and mechanical ventilation. These hypothesis-generating findings should be confirmed in a randomized control trial.
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The exponential increase in the complexity of ventilator technology has created a growing knowledge gap that hinders education, research, and ultimately the quality of patient care. This gap is best addressed with a standardized approach to educating clinicians, just as education for basic and advanced life support classes is standardized. We have developed such a program, called Standardized Education for Ventilatory Assistance (SEVA), based on a formal taxonomy for modes of mechanical ventilation. ⋯ The first 3 levels of SEVA are free and open to the public. We are developing mechanisms to offer the other levels. Spinoffs of the SEVA program include a free smartphone app that classifies virtually all modes on all ventilators used in the United States (Ventilator Mode Map), a free biweekly online training sessions focusing on waveform interpretation (SEVA-VentRounds), and modifications to the electronic health care record system for entering and charting ventilator orders.