Articles: chest-wall-oscillation.
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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.
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Randomized Controlled Trial Comparative Study
Acapella versus 'usual airway clearance' during acute exacerbation in bronchiectasis: a randomized crossover trial.
Devices such as the Acapella may facilitate independent airway clearance, however, few clinical trials have investigated the efficacy of Acapella. The aim of this study was to compare the effectiveness of Acapella to 'usual airway clearance' in adults during an acute exacerbation of bronchiectasis requiring oral antibiotic therapy. Twenty patients with bronchiectasis and an acute exacerbation requiring oral antibiotic therapy were recruited into a randomized crossover trial. ⋯ Mean duration of Acapella sessions was greater than usual airway clearance sessions and approached significance. There were no significant between group differences in changes in lung function. This study demonstrates that the Acapella device may offer an acceptable, user-friendly method of airway clearance in patients with bronchiectasis.
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Negative air pressure ventilation has been used to maintain adequate functional residual capacity in patients with chronic muscular disease and to decrease transpulmonary pressure and improve cardiac output during right heart surgery. High-frequency oscillation (HFO) exerts beneficial effects on gas exchange in neonates with acute respiratory failure. We examined whether continuous negative extrathoracic pressure (CNEP) combined with HFO would be effective for treating acute respiratory failure in an animal model. ⋯ Adequate CNEP combined with HFO improves oxygenation with less impact on blood pressure than high-frequency oscillation alone in an animal model of respiratory failure.
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Pediatr Crit Care Me · Nov 2006
Comparative StudyCombining lung-protective strategies in experimental acute lung injury: The impact of high-frequency partial liquid ventilation.
To evaluate the independent and combined effects of high-frequency oscillatory ventilation (HFOV) and partial liquid ventilation (PLV) on gas exchange, pulmonary histopathology, inflammation, and oxidative tissue damage in an animal model of acute lung injury. ⋯ The combination of HFOV and PLV (HF-PLV) does not provide any additional benefit compared with HFOV or PLV alone in a combined model of lung injury when lung recruitment and volume optimization can be achieved. The use of a lower PFC dose (HF-PLV1/2) is associated with decreased pulmonary leukostasis compared with HF-PLV and deserves further study.