View clinical trials related to Chronic Obstructive Pulmonary Disease.
Filter by:The objective of this study is to investigate molecular, cytological and genetic features of occupational chronic obstructive pulmonary disease (COPD) in conditions of different occupational exposures. In order to achieve this goal serum pro-inflammatory cytokines and standard inflammation markers level, hemostasis, cytological analysis of bronchoalveolar lavage fluid and association of single nucleotide polymorphisms (SNPs) rs1800470 transforming growing factor β1 (TGF β1) gene, rs1828591 hedgehog interacting protein (HHIP) gene, rs4129267 interleukin 6 receptor (IL-6R) gene, rs1051730 nicotinic acetylcholine receptor 3 (CHRNA3) gene with COPD in subjects exposed to silica dust and in those exposed to polycyclic aromatic hydrocarbons exhaust will be investigated. The relationship between genotype and phenotype characteristics, such as an inflammation activity, assessed by C-reactive protein (hsCRP) and tumor necrosis factor alpha (TNF α) serum concentration, in different occupational COPD groups will be studied. The hypothesis is that the mechanisms underlying disease development and progression are different due to environmental risk factor that reflex in differs in disease attributes - molecular biomarkers, cytology results and genetic susceptibility between COPD due to dust, COPD due to chemicals and COPD in smokers therefore COPD can be subdivided into ecological phenotypes according to environmental risk factor.
Chronic obstructive pulmonary disease (COPD) is a leading cause of morbidity and mortality worldwide. Its prevalence is in progression and COPD is expected to become the fourth leading cause of death by 2030. COPD is characterized by periods of stability interspersed with acute infectious/inflammatory flare-ups, also called acute exacerbations, during which patients deteriorate, sometimes to the point of requiring immediate medical assistance. Although most patients eventually recover, repeated episodes of exacerbations may accelerate COPD progression. Exacerbations may further compromise the integrity of limb muscles by promoting further loss in muscle mass and strength. The overall objective of this substudy is to elucidate how an acute COPD exacerbation may affect limb muscles.
The purpose of this study is to evaluate the safety and efficacy of four times daily Positive Expiratory Pressure (oPEP) (Aerobika ®) maneuvers over three weeks in individuals with bronchiectasis and chronic obstructive pulmonary disease (COPD) with chronic sputum production. The investigators hypothesize that four times daily positive expiratory pressure using the Aerobika ® will significantly improve dyspnea, movement of mucus, St. George's Respiratory Questionnaire (SGRQ) score, and six-minute walk distance (6MWD) after three weeks of four times daily administration.
The purpose of this study is to evaluate the safety and efficacy of four times daily oscillatory Positive Expiratory Pressure (oPEP) (Aerobika ®) use over 4 weeks in individuals with stable chronic obstructive pulmonary disease (COPD). The investigators hypothesize that daily oPEP use will significantly improve St. George's Respiratory Questionnaire (SGRQ) score, six-minute walk distance (6MWD) and forced expiratory volume in one second (FEV1) after four weeks of four times daily administration.
Subjects male and female aged 50-85 with a clinical diagnosis of chronic obstructive pulmonary disease (COPD) or Bronchiectasis, or those with ≥ 10 pack/years smoking history will be imaged with CT and MRI for the development of tools to quantify and validate longitudinal in vivo magnetic resonance imaging phenotypes of COPD and Bronchiectasis.
Background:Respiratory muscle weakness is observed in chronic obstructive pulmonary disease(COPD) patients and contributes to hypercapnia, dyspnoea, nocturnal oxygen desaturation and reduced walking distance.During exercise it has been shown that diaphragm work is increased in COPD and COPD patients use a larger proportion of the maximal inspiratory pressure (MIP) than healthy subjects. This pattern of breathing is closely related to the dyspnoea sensation during exercise and might potentially induce respiratory muscle fatigue. Inspiratory muscle training(IMT) increases inspiratory muscle strength and endurance, and decreases dyspnoea.But the mechanism of IMT still lack of research. Purpose:The experiment is aim to compare of the similarities and differences of transdiaphragmatic pressure by detecting the transdiaphragmatic pressure of COPD patients and healthy volunteers in different intensity of threshold load conditions. Thus investigate how inspiratory muscle training works or mechanism in lung rehabilitation programmes of COPD.And emerging the theoretical basis of inspiratory muscle training from respiratory physiological mechanism.
Asthma and Chronic obstructive pulmonary disease (COPD) results in over a million hospitalizations in the United States annually and COPD is the third leading cause of 30-day re-hospitalizations. Clinical trials have established the efficacy of treatments primarily dispensed via respiratory inhaler devices that reduce morbidity and health care utilization if they are used correctly. The effectiveness of these medications in real-world settings is limited by the fact that patients often do not use inhalers correctly. Current guidelines recommend assessing and teaching inhaler technique at all health care encounters, including hospitalization. Over 75% of hospitalized patients in an urban, predominantly underserved population misused their respiratory inhalers, highlighting a missed opportunity to educate these patients with high potential to benefit. Hospitalization, therefore, provides a potential 'teachable moment' to correct this misuse. My preliminary data indicate that one strategy, in-person teach-to-goal (TTG), is effective in teaching hospitalized patients proper inhaler technique and is more effective than simple verbal instruction. While TTG is a promising, several limitations prevent widespread adoption. TTG is time-consuming and costly. Also, reinforcement may be needed, which may be impractical with in-person TTG. One potential method to surmount TTG's limitations is use of interactive video module education (VME) that has the potential to be less costly, maintain fidelity, and be more easily extended into the post-discharge setting than in-person TTG. Before widespread implementation of VME, it is critical to rigorously develop and test VME for inhaler education in the hospital setting. Ultimately, it will also be important to understand patients' ability and willingness to use post-discharge VME for educational reinforcement to allow for this strategy to transition patients across care settings from hospital to home. We hypothesize that interactive VME will lead to non-inferior rates of ability to demonstrate correct inhaler use compared to rates with TTG among hospitalized patients with Asthma or COPD. For this study we are testing the preliminary efficacy of VME to teach respiratory inhaler technique prior to implementing a larger RCT to test the comparative effectiveness of VME versus TTG.
This is a long-term safety trial of 48 weeks. Eligible subjects will enter the 48-week, open-label treatment period to receive one of two treatments (SUN-101 given as 50 mcg twice a day or Spiriva® [tiotropium] given as 18 mcg once a day).
This is a randomized, open-label, parallel group, multicenter, outpatient study in COPD subjects who are discharged from the hospital due to a COPD exacerbation. Subjects who meet the eligibility criteria will be randomized to 1 of 2 treatments: arformoterol tartrate inhalation solution (BROVANA) 15 mcg twice daily (BID) or tiotropium bromide (SPIRIVA) 18 mcg once daily (QD), each given for 90 days.
The purpose of this project is to conduct a pilot study evaluating the feasibility and potential benefits of a phone assessment/reporting system (tele-system) in addition to a written action plan and nurse case manager support to improve patients' adherence to COPD treatment in those at risk for exacerbations. Primary objective: explore the potential benefits with respect to patient's adherence, i.e., prompt use of the antibiotic and/or prednisone in the event of an exacerbation, increased adherence to maintenance medication; to increase patient's self-efficacy" in self-managing their disease; and to use more efficiently program resources, i.e., the case-manager. Secondary objectives: To assess the proportion of patients who effectively self manage exacerbations by using their COPD Action Plan To assess self management of COPD patients with respect to the increased adherence to regular respiratory medication, (SmartInhaler electronic monitoring); To assess increased self-efficacy in COPD patients identifying and managing exacerbations (baseline vs after 12 months); To assess symptoms recovery, health status improvement, and prevention of ER visits and hospital admissions for COPD exacerbations. To assess the efficiency in using program resources, To evaluate the feasibility of this treatment approach and to provide pilot data (needed for a larger multi-centre clinical trial; To evaluate the feasibility and need of assessment during and after exacerbation onset, health-related quality of life and physical activity; To evaluate the safety of this approach; this is in terms of the delay in starting prednisone and an unfavourable outcome (ER visits and/or hospitalization).