COPD
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Airway clearance is a key component of respiratory physiotherapy management for patients with excess secretions, including patients with chronic obstructive pulmonary disease (COPD). The aim of this review is to give an overview of the available evidence for the use of different airway clearance techniques (ACT) and their effects in patients with COPD. ⋯ Studies that provide solid evidence of the effectiveness of different airway clearance techniques in patients with COPD are rather scarce. The available evidence indicates that active breathing techniques, such as active cycle of breathing techniques, autogenic drainage and forced expiration, can be effective in the treatment of COPD. The evidence for passive techniques such as postural drainage and percussion is low. Supporting techniques such as intrapulmonary percussive ventilation, positive expiratory pressure and non-invasive ventilation have little evidence because of the small number of studies. Little evidence is found for the combined use of active techniques and supporting techniques such as (oscillating) positive expiratory pressure, postural drainage and vibration in COPD patients. There is clearly a need for well-powered controlled clinical trials on the long-term effects of (combined) airway clearance techniques in COPD.
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Endogenous opioids are naturally occurring peptides released by the brain in response to noxious stimuli. Although these naturally occurring peptides modulate pain, it is unknown whether endogenous opioids affect the perception of breathlessness associated with a specific respiratory challenge. The hypothesis is that intravenous administration of naloxone, used to block opioid signaling and inhibit neural pathways, will increase ratings of breathlessness during resistive load breathing (RLB) in patients with chronic obstructive pulmonary disease (COPD). ⋯ Endogenous opioids modulate the intensity and the unpleasantness of breathlessness in patients with COPD. Differences in breathlessness ratings between interventions were clinically relevant based on the patients' global assessment.
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Comparative Study
Economic evaluation of a disease management program for chronic obstructive pulmonary disease.
The data on cost savings with disease management (DM) in chronic obstructive pulmonary disease (COPD) is limited. A multicomponent DM program in COPD has recently shown in a large randomized controlled trial to reduce hospitalizations and emergency department visits compared to usual care (UC). The objectives of this study were to determine the cost of implementing the DM program and its impact on healthcare resource utilization costs compared to UC in high-risk COPD patients. ⋯ The DM intervention program in this study was unique for producing an average cost savings of $593 per patient after paying for the cost of DM intervention.
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Triple therapy for COPD consists of a long-acting anti-cholinergic bronchodilator, a long-acting beta-agonist bronchodilator, and an inhaled corticosteroid. Guidelines from the Canadian Thoracic Society advocate triple therapy for some patients with moderate-to-severe COPD. The objective of this review was to evaluate the evidence based clinical efficacy of triple therapy compared to dual bronchodilator therapy (long-acting anti-cholinergic bronchodilator + beta-agonist bronchodilator) or long-acting anti-cholinergic bronchodilator monotherapy for managing COPD. ⋯ Lung function, dyspnea and quality of life data show statistical significant changes with triple therapy compared to long-acting anti-cholinergic bronchodilator monotherapy but the changes do not reach clinical importance. Triple therapy does decrease the number of hospitalizations for severe/acute COPD exacerbations compared with long-acting anti-cholinergic bronchodilator monotherapy. There is insufficient evidence to determine if triple therapy is superior to dual bronchodilator therapy.
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Cigarette smoking causes airflow limitation with lung hyperinflation being the primary causes of COPD. Fifty chronic smokers (CSs) with no signs of GOLD-adjusted COPD with smoking habit at least ≥10 pack-years (p/yrs) were divided into CS-mild (n = 24) with smoking history from ≥10 to ≤20 p/yrs and CS-heavy groups (n = 26) with smoking history ≥21 p/yrs. Spirometry, plethysmography and diffusing capacity were measured and lung computed tomography (CT) was performed. ⋯ Multiple regression analysis determined that smoking intensity regardless of the subjects' age was significant factor for decline of airway specific conductance and increase of RV (L). Here we conclude that lung function deviation and lung structural changes are present in CSs before the clinical signs of airway obstruction reveal. Body plethysmography and diffusing capacity measurement with routine spirometry can provide valuable information for detection of changes reflecting to the early onset of COPD in CSs.