Paediatric respiratory reviews
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This review examines specific mucoactive agents from three classes: expectorants, which add water to the airway; ion-transport modifiers, which promote ion and water transport across the epithelium of the airway; and mucokinetics, which improve cough-mediated clearance by increasing airflow or reducing sputum adhesivity. The agents are isotonic and hypertonic saline, mannitol, denufosol and beta-agonists. Our understanding of these agents has recently improved through pre-clinical research, clinical trials and, in particular, extensive research into the nature of the liquid lining the surface of the airway, both in health and in cystic fibrosis (CF). For each agent, recent research is reviewed, highlighting the evidence for possible mechanisms of action and for clinical efficacy in CF, as well as the implications for the optimal clinical application of the agent.
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Mucus accumulation in the lower airways is a key feature of cystic fibrosis (CF) lung disease. The major component of mucus in CF is not mucin derived from mucus producing cells but rather pus that includes viscous material such as polymerized DNA derived from degraded neutrophils. This has important implications for mucolytic therapy aiming to improve mucus clearance from the airways, since degradation of mucin may not be a suitable treatment strategy. ⋯ Dornase alfa has been shown to reduce pulmonary exacerbations and improve lung function and is currently the only mucolytic agent with proven efficacy in CF. Newer agents targeting other components of CF mucus, such as filamentous actin, are currently in development. Ultimately, drugs that are mucokinetic, which preserve viscoelasticity, rather than mucolytic may prove to be beneficial for CF lung disease in the future.
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The biophysical properties of airway secretions are largely determined by the polymeric components. In normal airway mucus, the gel-forming mucins, MUC5AC and MUC5B, are responsible not only for the viscoelastic properties essential for clearance and protecting the airway epithelium from invaders and water evaporation. ⋯ Sputum viscoelastic and surface properties determine how well secretions can be cleared by cilia or cough. In this mini-Symposium on Airway Clearance in Cystic Fibrosis, the physiology of CF secretion structure and rheology is discussed in the context of medications and physical maneuvers for enhancing sputum clearance.
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Clearance of infected airway secretions is essential to preserve lung function in patients with cystic fibrosis (CF). Although the value of regular airway clearance treatments has been shown in many studies, adherence to the prescribed treatments is not very good (see Making airway clearance successful, pp. 000-000). In the past the only method available was conventional chest physiotherapy (CCPT; also known as manual percussion and postural drainage). ⋯ However, the many newer methods of airway clearance available now allow CF patients and their families to choose the techniques and devices that best suits them. Most of the newer airway clearance devices have been studied in comparison to standard chest physiotherapy and most studies show no advantage of one method over another. This review will describe newer airway clearance devices available for CF patients and discuss evidence for the effectiveness of these devices compared to standard chest physiotherapy.