Respiratory care
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Manual and mechanical cough augmentation techniques are used for airway clearance when cough effort is ineffective. Mechanical insufflation-exsufflation (MI-E) has been a mainstay for respiratory complications of neuromuscular disorders, but its use has expanded to other conditions that result in respiratory muscle weakness and impaired cough, such as intubation and mechanical ventilation. Mechanical in-exsufflation has been used for cough augmentation in both adults and children but has been more widely evaluated in adults. ⋯ Electrical impedance tomography has been used for monitoring during mechanical ventilation and may have a role in assessing the effectiveness of MI-E. Much of the literature that supports MI-E is derived from small, single-center studies of adult populations. Future study is warranted for efficacy and optimization of MI-E therapy in various clinical applications.
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Asthma is a common chronic disease that affects both adults and children, and that continues to have a high economic burden. Asthma management guidelines were first developed nearly 30 years ago to standardize care, maintain asthma control, improve quality of life, maintain normal lung function, prevent exacerbations, and prevent asthma mortality. The two most common asthma guidelines used today were developed by the National Asthma Education and Prevention Program (NAEPP) Expert Panel Working Group and the Global Initiative for Asthma Science Committee. ⋯ Over the years, the focus of asthma treatment has shifted from acute to chronic management. Frontline respiratory therapists and other health-care providers should have a good understanding of these 2 guiding references and how they can impact acute and chronic asthma management. The primary focus of this narrative is to look at the similarities and differences of these 2 guiding documents as they pertain to the 6 key questions identified by the Expert Panel of the National Asthma Education and Prevention Program.
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Because some disease processes produce radiographic abnormalities that occur in characteristic distributions in the chest, classifying the position and appearance of these suggestive features and the underlying diseases provides a tool by which diagnostic accuracy might be improved. The goal of this review is to offer to the chest clinician a taxonomy of these disease entities that can produce characteristic chest radiographic distributions. ⋯ This taxonomy includes 3 distributional categories: (1) upper versus lower lung zone-predominant processes, (2) central versus peripheral processes, and (3) processes with distinctive focal locations, eg, "photonegative appearance" as in chronic eosinophilic pneumonia. It is hoped that this taxonomy aids the chest clinician in generating and streamlining a differential diagnosis and in ascertaining the specific cause of diseases with radiographic abnormalities.