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Showing 1-20 of 881 trials
NCT06847061
The purpose of this study is to test the uptake, effectiveness, and patient-caregiver-provider experience of a crucial treatment not provided in rural areas: pulmonary rehabilitation.
NCT06511193
The CHRONICLES study will investigate the change in clinical and patient reported outcomes after six-months of treatment with Budenoside/Glycopyrronium/Formoterol \[BGF\] in a real-world setting.
NCT07563283
Why is this study being done? Chronic Obstructive Pulmonary Disease (COPD) causes airflow blockage creating breathing issues, distress, and lower well-being. COPD also causes hyperinflation of the lungs. The investigators are doing the study to learn more about improving lung function for patients with COPD by using voice-based experiences. What is being tested in this study? If singing/vocalizing can improve lung function. How long will I be in the study? The study will last 4 weeks and involve 2 in-person visits to KUMC with virtual vocal sessions two times a week over Zoom.
NCT04997200
This is a randomized controlled cross-over trial designed to measure the effect of one night's sleep deprivation on exercise endurance, ventilation and breathlessness in outpatients with COPD.
NCT07482033
This study is a randomized, controlled experimental trial with a pretest-posttest design, conducted to evaluate the effects of Pecha Kucha-based education on self-efficacy, symptom level, and activities of daily living in individuals diagnosed with chronic obstructive pulmonary disease (COPD) receiving noninvasive mechanical ventilation support. The study will include two groups, and intergroup differences will be evaluated: 1. Control group 2. Intervention group Study Hypotheses H1: Pecha Kucha-based education on noninvasive mechanical ventilation (NIMV) support provided to individuals with chronic obstructive pulmonary disease (COPD) increases patients' self-efficacy levels. H2: Pecha Kucha-based education on noninvasive mechanical ventilation (NIMV) support provided to individuals with chronic obstructive pulmonary disease (COPD) reduces patients' symptom levels. H3: Pecha Kucha-based education on noninvasive mechanical ventilation (NIMV) support provided to individuals with chronic obstructive pulmonary disease (COPD) improves patients' activities of daily living.
NCT04789057
It is a randomized, multicenter, prospective, double-blind, placebo controlled, interventional clinical trial that will be conducted in Poland, in about 12 Hospital Pulmonary Departments to evaluate the effectiveness of atorvastatin on the reduction of inflammation process in patients with chronic obstructive pulmonary diseases, and possible biomarkers for personalized treatment of COPD.
NCT07307781
This Study is multicenter, non-interventional, ambispective registry to evaluate the demographic and clinical characteristics, therapeutic approaches and outcomes in COPD outpatients with frequent exacerbations in Moscow
NCT07383896
The goal of this observational study is to determine the prevalence of asthma and chronic obstructive pulmonary disease (COPD) among workers in an industrial zone in Thailand. The main question the study aims to answer is: What is the prevalence of asthma and COPD among workers in Thailand? Participants will complete a questionnaire on respiratory symptoms and undergo pulmonary function testing.
NCT07207967
In patients with airflow obstruction receiving mechanical ventilation, an important objective is to reduce lung hyperinflation often using controlled hypoventilation. At the same time, maintaining acceptable gas exchange is challenging, as major reductions in minute ventilation (VE) raises carbon dioxide (CO2) and causes respiratory acidosis, which may lead to adverse physiological consequences. Relatively prolonged end-inspiratory pause (EIP) has been shown to optimize CO2 clearance in hypoxemic mechanically ventilated patients. Previous data suggests that, at equivalent total inspiratory-time (TI), shorter insufflations followed by EIP can enhance CO2 elimination in acute lung injury. Adding EIP is classically discouraged in chronic obstructive pulmonary disease (COPD) because - at constant respiratory rate (RR) - prolonging inspiration reduces expiratory time (TE), and can worsen hyperinflation and impair hemodynamics. In this study, we assessed whether a breathing pattern characterized by high inspiratory flow (V ̇) plus EIP could reduce PaCO2 without inducing hyperinflation, compared with same inspiration-to-expiration time (I:E) and a ventilation pattern without EIP in patients with COPD undergoing controlled hypoventilation. Methods We performed a prospective, single-center, cross-over, randomized trial (ethical approval #10/2024) including deeply sedated and intubated adults with COPD exacerbation, PaCO2 ≥ 45 mmHg and no signs of respiratory effort. Persistent air-leaks, severe hemodynamic instability, pregnancy or intracranial hypertension were exclusion criteria. Patient's next of kin signed the informed consent. At inclusion, we collected demographic characteristics and baseline respiratory variables. A CT-emphysema score, using computed tomographies obtained within 24 hs of intubation for clinical reasons, was calculated (A.R, a pulmonologist specialized in medical imaging). Each lung was divided into 3 regions (superior, medium and inferior) based on anatomical references and were graded as no emphysema (score 0), emphysema ≤25% (score 1), ≤50% (score 2), ≤75% (score 3) and \>75% (score 4). Scores of the six regions were summed to obtain the total score, giving a minimum 0 and a maximum of 24 points. Total scores ≥ 2 are indicative of emphysema. Patients were ventilated in volume-controlled mode with square-flow waveform, tidal volume of predicted body weight (VtPBW) 6-8 ml/kg, TI 0.6-0.8 seconds, RR 10-16 breaths per minute (bpm) and I:E relationship 1:4-1:8. External positive end-expiratory pressure (PEEPext) was set to the maximum value that did not increase plateau pressure (Pplat) ≥ 1cmH2O compared to zero PEEP, and FiO2 to maintain oxygen saturation of 90-95%. Two ventilation strategies, each one applied for 30 minutes, were randomly evaluated: a) ventilation without EIP, using initial ventilator settings (VentNO-PAUSE); b) ventilation with EIP (VentPAUSE), in which V ̇ was increased and 40-50% of the total inspiratory time (TI) was replaced by EIP; the remaining setting were equal to VentNO-PAUSE. At the end of each phase, we collected arterial blood gases, respiratory mechanics and basic hemodynamics. Total PEEP (i.e., PEEPtot=PEEPext + autoPEEP) and Pplat were assessed with 5-second end-expiratory, and 2-second end-inspiratory occlusions, respectively. Driving airway pressure (ΔP) was computed as Pplat - PEEPtot, normalized elastance (ERS-n) as driving pressure (ΔP)/VtPBW and inspiratory airway resistance (Raw) as (Peak pressure \[Ppeak\] - Pplat) / V ̇. We hypothesized that ventilation efficiency would be better during VentPAUSE, and wanted to evaluate whether this strategy would have allowed to reduce VE while keeping the same CO2 obtained without EIP. Accordingly, and assuming a constant CO2 production, we calculated the predicted VE during VentPAUSE to maintain the same CO2 measured during VentNO-PAUSE with the formula : Predicted VE\_( (Vent\_PAUSE))=█(〖PaCO\_(2 )〗\_((Vent\_PAUSE ) ) )/〖PaCO\_2〗\_((Vent\_(NO-PAUSE) ) ) × VE used during the study phases. This allowed to calculate to what extent it would have been possible to reduce VE (VEpred) and RR (RRpred) using the experimental strategy. We additionally calculated the predicted prolongation of expiration using the new RRpred as: TE-pred = (60/RRpred) - TI. We calculated the ventilatory ratio as an indice reflecting physiological dead-space ventilation (VD/VT).
NCT07112235
The goal of this study is to examine exacerbations of chronic obstructive pulmonary disease (COPD) caused by a common cold virus called rhinovirus, to identify new treatments. Exacerbations are flare-ups of respiratory symptoms which are a major cause of ill health in people with COPD, and are most commonly caused by viruses. The main questions the study aims to answer are: * What processes in the body occur in response to rhinovirus infection, and do the differences between people with COPD and healthy volunteers explain why people with COPD develop more severe illness and exacerbations? * Can treatments be identified that target these processes to reduce the severity and frequency of exacerbations in people with COPD? The study will compare eligible participants with COPD to healthy volunteers, and will involve intentionally infecting each participant with rhinovirus in a controlled environment. They will undergo baseline investigations prior to infection including a first bronchoscopy. Post-infection each participant will undergo a range of tests, including a second bronchoscopy, to compare how processes in the body, and especially the lungs, differ between people who do and do not have COPD.
NCT07519499
This is a multicenter, randomized, double-blind, placebo-parallel-controlled, two-stage design, Phase II clinical study. This study is divided into two stages. Stage 1 (Phase IIa) has a dosing duration of 24 weeks (treatment period of 28 weeks) and aims to preliminarily evaluate the efficacy, safety, PK characteristics, and immunogenicity of XKH001 Injection in trial participants with moderate to severe COPD. Stage 2 (Phase IIb) has a dosing duration of 48 weeks (treatment period of 52 weeks) and aims to further evaluate the efficacy, safety, PK characteristics, and immunogenicity of XKH001 Injection in trial participants with moderate to severe COPD.
NCT07108699
To evaluate the safety and efficacy of the HSK39004 Dry Powder Inhaler compared with the placebo in the treatment of Chinese patients with COPD.
NCT07518472
Chronic Obstructive Pulmonary Disease is progressive and irreversible respiratory condition characterized by persistent airflow limitation leading to dyspnea and reduced functional capacity. Pulmonary rehabilitation along with different technqiues of breathing exercises reduces dyspnea and enhance functional capacity by improving ventilatory efficiency, respiratory muscle control and overall exercise tolerance in patients with COPD.
NCT07509606
Chronic obstructive pulmonary disease (COPD) is an irreversible disorder characterized by persistent airflow limitation and increased lung compliance. It leads to dyspnea, skeletal muscle dysfunction, impaired functional capacity, and reduced quality of life. Physical inactivity is considered a major contributor to symptom deterioration, the development of a vicious cycle, and ultimately increased mortality. According to the American College of Sports Medicine (ACSM), the American Thoracic Society (ATS), and the American Association of Cardiovascular and Pulmonary Rehabilitation (AACVPR), pulmonary rehabilitation should include aerobic and resistance exercise for at least 20 minutes per session, performed three to five times per week for a minimum of 12 weeks. Exercise intensity should be progressively increased to exceed 60% of peak oxygen uptake (VO₂peak), and patients are encouraged to maintain long-term exercise habits. However, there is still no consensus regarding the optimal initial intensity, progression strategy, and exercise duration. Previous studies have demonstrated that whole-body vibration (WBV) can improve lower extremity muscle strength, functional capacity, and quality of life in patients with COPD. However, its effects on lung function and the optimal training dose remain unclear. In addition, COPD also affects respiratory muscles, upper extremity strength and flexibility, as well as cardiac autonomic function. Therefore, the aim of this study is to investigate the effects of different WBV frequencies on lung function, respiratory muscle function, upper extremity strength and flexibility, and cardiac autonomic function, in order to determine the optimal training dose.
NCT07451977
The aim of this multicenter crossover trial is to describe the effect of adding a therapeutic dose of exertional oxygen therapy, in terms of exercise performance, gas exchange, heart rate, symptoms perception and subjective easiness of performance, in a cohort of subjects hospitalized in specialized pulmonary rehabilitation centers with a diagnosis of chronic respiratory failure and/or exertional hypoxemia due to chronic obstructive pulmonary disease or interstitial lung disease. Researchers will compare the walking performance during 6-minute walk test performed with the liters of oxygen administered as prescribed at rest (for patients with chronic respiratory failure) or in room air (for patients with exertional hypoxemia only), to the performance during a 6-minute walk test performed with the double the flow rate prescribed at rest, or with 2 L/min for patients with exertional hypoxemia only. The two tests will be performed in random order, at least 3 hours apart and no later than 24 hours apart from each other. The main outcome will be the difference between the distance walked in the two 6-minute walk test in the two conditions. Furthermore, will be also collected and compared: the oxygen saturation and heart rate every minute, the initial and final dyspnea and fatigue, as assessed by Borg scale, and the easiness of performance through a dedicated questionnaire. The estimated sample size will be 114 patients. This study will provide some basis for a more accurate prescription of exercise-related oxygen therapy, offering insights into the phenotype of patients who may derive the greatest benefit from this intervention. It will also stimulate discussion regarding the optimal timing and dosing of oxygen administration during exertion in patients with respiratory failure.
NCT07343375
Patients with chronic obstructive lung disease (COPD) suffer from a progressive loss of lung function that leads to poor quality of life, and often invalidity and early death. Regular exercise can improve quality of life in these patients, but there is a lack in understanding the underlying mechanism of exercise-induced improvement in COPD and it is widely thought not to have any effect on the lung as such. In the present study, the investigators aim to investigate the impact of an extensive high-intensity interval training (HIIT)-based exercise scheme on the regenerative capacity of the lung in patients with COPD on waiting list for lung volume reduction surgery. Design: Prospective randomized controlled clinical trial. Intervention: 24 persons with COPD referred for lung volume reduction surgery will randomly be allocated (1:1) to prehabilitation with high intensity interval training (HIIT) or non-exercise control. Outcomes: The primary outcome is differences in change in differential protein composition in distal lung tissue between HIIT and control groups post-intervention using spatial multimodal proteomics. Furthermore, lung tissue mass, protein composition (mass spectrometry and spatial omics e.g. MACSima), pulmonary blood volume, blood protein profile (biomarkers), diffusion capacity at rest and during exercise, oxygen consumption tests, body composition scan, distal airspace radii and physical functional tests will be measured before and after the intervention. Perspective: This study may fundamentally change the view on the regenerative potential of the lungs in COPD.
NCT07497230
This randomized pilot trial evaluated the feasibility and preliminary effects of using asymmetric high-flow nasal cannula (A-HFNC) during exercise-based pulmonary rehabilitation (PR) in patients with chronic obstructive pulmonary disease (COPD). Thirty patients were randomly assigned to conventional PR or PR supplemented with A-HFNC during aerobic training, completing 12 supervised sessions. The study assessed whether A-HFNC could be safely and acceptably incorporated into PR, and whether it enabled higher training intensity and improved exercise performance. Results showed that the intervention was feasible and safe, with 83% adherence in both groups and no adverse events. Patients in the A-HFNC group trained at significantly higher treadmill inclination and showed a clinically meaningful trend toward greater improvement in maximal exercise tolerance. These findings support the design of a larger definitive trial.
NCT05854550
The goal of this clinical trial is to test the feasibility of an implant for severe emphysema in up to 30 participants. The main questions it aims to answer are: Is it safe? Does it work? Participants who meet eligibility criteria will have up to two procedures 30 days apart, in which up to 3 implants will be placed in each lung during the procedure(s). Participants will be asked to return for follow-up visits at 30 days, and 3, 6, and 12 months after the procedure(s).
NCT05949645
The goal of this clinical trial is to test the feasibility of an implant for severe emphysema in up to 30 participants at up to 5 study centers located in Europe and the United Kingdom. The main questions this clinical trial aim to answer are: Is it safe? Does it work? Participants who meet eligibility criteria will have up to two procedures 30 days apart, in which up to 3 implants will be placed in each lung during the procedure(s). Participants will be asked to return for follow-up visits at 30 days, and 3, 6, and 12 months after the procedure(s).
NCT03272932
This study is to assess the prevalence of Asthma COPD Overlap in subjects with diagnosed asthma and chronic obstructive pulmonary disease (COPD). The subsequent morbidity and mortality of subjects will be followed up for 3 years.