One recommendation is to increase expiratory time as a result of

One recommendation is to increase expiratory time as a result of slowing the respiratory Selleck AP24534 rate by using low-level positive expiratory pressure (O’Donnell

1994, Wouters 2006). Pursed lips breathing, essentially a low level positive expiratory pressure of 5 cmH2O suggested by van der Schans et al (1995), is often adopted spontaneously by patients with chronic obstructive pulmonary disease to prolong expiration and lower respiratory rate. A previous study has shown a trend for pursed lips inhibitors breathing to decrease end expiratory lung capacity and consequently dyspnoea (Fregonezi et al 2004). However, the evidence that pursed lips breathing is beneficial for dyspnoea, exercise endurance, and dynamic hyperinflation remains uncertain (Fregonezi et al 2004, Spahija et al 2005). This uncertainty might be the result of variation in the severity of chronic obstructive pulmonary disease and/or the extent of positive expiratory pressure generated by pursed lips breathing. Positive expiratory pressure devices can prolong expiratory time and decrease respiratory rate (van der Schans et al 1994), thereby reducing airway closure (Marini et al 1989) and dynamic hyperinflation, and have been used in the management of lung disease in which airway collapse is a problem. However, there has been little investigation of the effect of positive expiratory pressure in chronic obstructive

pulmonary disease in terms of exercise endurance, dyspnoea, or dynamic hyperinflation. Van der Schans et al (1994) showed that patients with chronic heptaminol obstructive pulmonary RG7204 price disease who breathed through a positive expiratory pressure device at 5 cmH2O decreased minute ventilation during exercise and had a tendency to decrease respiratory rate. However, dyspnoea and CO2 retention were increased. They hypothesised that insufficient positive pressure was generated to reduce airway closure and that using higher positive expiratory pressure would be more effective during exercise.

Consequently, we developed a small conical positive expiratory pressure device (conical-PEP) that can generate higher positive expiratory pressures compared to commercial cylindrical positive expiratory pressure devices. In addition, a recent controlled case report of the effects of conical-PEP on lung hyperinflation during arm exercise in a patient with moderate chronic obstructive pulmonary disease demonstrated that exhaling through the device was safe with no hypoxaemia or hypercapnia, and tended to decrease lung hyperinflation (Padkao et al 2008). Therefore the specific research questions for this study were: 1. Does conical-PEP breathing decrease dynamic lung hyperinflation during exercise in patients with moderate to severe chronic obstructive pulmonary disease compared to normal breathing? A randomised cross-over trial was conducted in which participants received each intervention twice.

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