View clinical trials related to Lung Diseases, Obstructive.
Filter by:This is a placebo-controlled, double-blind, parallel, randomized, two-part, dose-confirming clinical study characterizing the pharmacodynamic effects of pulsed iNO using the combination product, inhaled nitric oxide/INOpulse DS-C vs. placebo in subjects with World Health Organization (WHO) Group 3 pulmonary hypertension (PH) associated with Chronic Obstructive Pulmonary Disease (COPD) on Long Term Oxygen Therapy (LTOT).
This study will assess the efficacy, safety and tolerability of QVA149 in patients with moderate to severe airflow limitation.
This study compared the correct use of and patient preference for two drug delivery systems (inhalers) in patients with COPD
Recent studies have demonstrated the promising potential that telehealth has in management of chronic disease. For COPD patients, implementation of telehealth reduced readmissions, emergency room visits, and exacerbations and was cost-effective. Telehealth as a method of delivering healthcare to remote, resource-deprived areas is not lacking in evidence of benefit; however, the situation about its more widespread use for monitoring purposes is much less clear. To date, most of the studies dealing with telehealth in COPD were conducted in countries covering vast territories. Therefore, it needs to be investigated whether telehealth conveys similar advantages for COPD patients in a small island country.
Patients with chronic obstructive pulmonary disease (COPD) experience breathing difficulties because the airways deep in their lungs become narrowed. COPD patients use inhaler drugs to provide relief from breathlessness. However, current inhalers are inefficient as they deliver a 'coarse-mist' of drug-droplets that do not reach the deep airways. In our study, we will use an inhaler of 'fine-mist' drug-droplets, tagged with a radioactive tracer to track them. We will take images of the lungs to see if the fine-mist droplets reach the deep airways, and assess if this improves the breathing capacity in our patients. Our research may allow the development of new, more efficient inhalers to improve treatment for patients with COPD.
Patients with chronic lung diseases such as Chronic Obstructive Pulmonary Disease (COPD), who perform regular physical activity, have improved health and wellbeing compared with those who do little exercise. The purpose of the study is to evaluate whether the use of a simple pedometer (step counter) to set targets for daily physical activity can encourage COPD patients referred for an 8-week pulmonary exercise based programme (PR) to be more active. The investigators also want to know whether the use of pedometers during PR can improve adherence, self-management and outcome in COPD.
The investigators are studying the effect of a single dose Opioid drug (Morphine) on dyspnea and exercise tolerance in COPD patients.
Mechanical devices to increase the individual's bronchial hygiene are commonly used to assist patients with chronic retention of secretions. VAKÜM technology has been recently developed with the aim to improve the respiratory condition in hypersecretive patients suffering from chronic respiratory diseases. The aim of this study is to assess the clinical efficacy of VAKÜM technology in patients with hypersecretion, and chronic respiratory diseases a clinical trial has been designed. Patients with chronic respiratory diseases, hypersecretion (sputum production >30 mL/die), and reduced cough efficiency (Peak Cough Expiratory Flow > 150 and < 300 L*min-1) referred to standard pulmonary rehabilitation (PR) will be included. Study design is a single-blind multicentre randomized trial with consecutive recruitment. Following a preliminary run-in period, group comparison will be made between Intervention group using VAKÜM system (Free Aspire, MPR, Legnano-I) added to the conventional manual ELTGOL technique, and Control group using manual ELTGOL alone over 10 daily sessions. Spirometric lung volumes, respiratory muscle strength, arterial blood gases, and quality of life will be recorded in both groups pre-to-post PR. Perceived dyspnea (by VAS scale), sputum volume and characteristics (on a semi-quantitative 3-point scale) and peak expiratory air flows (PEF and PCEF) will be registered on a daily basis over the study period. Primary outcome is the change in perceived dyspnea; in order to ensure 80% power to detect a 5 point (SD 5) group difference change in the primary outcome at the end of the study period as significant at the 0.05 level, at least 42 patients per group are needed. The minimum target sample size will be then fixed at 50 patients per group. An higher and faster significant reduction of the perceived dyspnea is supposed in the Intervention group. Additional benefits among the secondary outcomes are also hypothesised in the same group.
Targeted Lung Denervation (TLD) Therapy will be a safe method to ablate the airway nerve trunks that travel parallel to and outside of the main bronchi and into the lungs to achieve targeted lung denervation and potentially improve breathing and quality of life for patients suffering from COPD. Use of the IPS System will be technically feasible in accessing the target treatment location and delivering RF energy to the target treatment location.
The purpose of this study is to evaluate the lung function response to UMEC/VI, UMEC, and VI in individual patients using a cross-over design. This is a multicenter, randomized, double-blind, 3-way crossover study. Eligible subjects will be randomized to a sequence of UMEC 62.5mcg, VI 25mcg, and UMEC/VI 62.5/25mcg. All subjects will receive each treatment once-daily for 14 days, and each treatment will be separated by a 10-14 day washout period. There will be a 5-7 day run-in period prior to randomization.