Respiratory care
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First health care professionals arriving at the bedside in tracheostomy-related emergencies are rarely the surgical subspecialists who placed the tracheostomy and are unfamiliar with the relevant anatomy and tracheostomy specifications for the individual patient. We hypothesized that implementing a bedside airway safety placard would increase caregiver confidence, understanding of airway anatomy, and management of patients with a tracheostomy. ⋯ Given the limitations of a low survey response rate, our findings suggest that an educational airway safety placard initiative can be a simple, feasible, and low-cost quality improvement tool to enhance airway safety and possibly decrease potentially life-threating complications among pediatric patients with a tracheostomy. The implementation of the tracheostomy airway safety survey at our single institution warrants a larger multi-center study and validation of the survey.
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Airway pressure is usually measured by sensors placed in the ventilator or on the ventilator side of the endotracheal tube (ETT), at the Y-piece. These remote measurements serve as a surrogate for the tracheal or alveolar pressure. Tracheal pressure can only be predicted correctly by using a model that incorporates the pressure at the remote location, the flow through the ETT, and the resistance of the ETT if the latter is a predictable function of Y-piece flow. However, this is not consistently appropriate, and accuracy of prediction is hampered. ⋯ Dependent on CRS and the breathing cycle, tracheal pressures deviated from those measured proximal to the ETT under non-zero-flow conditions. Intratracheal pressure and pressure curve dynamics can differ greatly from the ventilator pressure, depending on the ventilator setting and the CRS. The small pressure sensor may be used as a measurement method of tracheal pressure via integration onto an ETT.
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Explaining the meaning of the results to the reader is the purpose of the discussion section of a research paper. There are elements of the discussion section that should be included and pitfalls that should be avoided. Always write the discussion section for the reader. Remember that the focus is to help the reader understand the study and that the focus should be on the study data.
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Diaphragm inactivity during invasive mechanical ventilation leads to diaphragm atrophy and weakness, hemodynamic instability, and ventilatory heterogeneity. Absent respiratory drive and effort can, therefore, worsen injury to both lung and diaphragm and is a major cause of failure to wean. Phrenic nerve stimulation (PNS) can maintain controlled levels of diaphragm activity independent of intrinsic drive and as such may offer a promising approach to achieving lung and diaphragm protective ventilatory targets. Whereas PNS has an established role in the management of chronic respiratory failure, there is emerging interest in how its multisystem putative benefits may be temporarily harnessed in the management of invasively ventilated patients with acute respiratory failure.
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The methods section of a manuscript is one of the most important parts of a research paper because it provides information on the validity of the study and credibility of the results. Inadequate description of the methods has been reported as one of the main reasons for manuscript rejection. The methods section must include sufficient detail so that others could repeat the study and reproduce the results. ⋯ Subheadings might be helpful for organizing the methods section into subsections when there is a considerable amount of information to report. A well-written methods section will guide the reader through the research process and provide adequate information to evaluate study validity and reproduce the work. The purpose of this paper is to provide guidance for writing the methods section of a manuscript.