View clinical trials related to Chronic Obstructive Pulmonary Disease.
Filter by:The overlap between chronic obstructive pulmonary disease (COPD) and bronchiectasis is a neglected area of research, and it is not covered by guidelines for clinical practice. COPD and bronchiectasis share common symptoms of cough with sputum production and susceptibility to recurrent exacerbations driven by new or persistent infection. Physiological criteria for the diagnosis of COPD and structural criteria for the diagnosis of bronchiectasis create the possibility for individual patients to fulfil both, resulting conceptually in either co-diagnosis or an overlap syndrome between the two conditions. The prevalence of this overlap will vary depending on the respective prevalence of COPD and bronchiectasis in the population under consideration. A recent study of 201 COPD patients with airway wall abnormalities typical of bronchiectasis confirmed an association with exacerbations and was predictive of mortality over 48 months. A further, single-centre study demonstrated a near three-fold increased mortality rate, with patients with bronchiectasis and associated COPD having a 5-year mortality of 55%, compared with 20% in those with bronchiectasis without COPD. Airflow obstruction is perhaps best considered one marker of disease severity in bronchiectasis. Disease-associated exacerbations have a major effect on patient healthcare costs as well as quality of life due to increased lung damage and mortality risk. Microorganisms such as Pseudomonas aeruginosa and, to a lesser extent, other Gram-negative and Gram-positive microorganisms identified in culture, have been linked to disease progression, poor clinical outcomes in bronchiectasis and driving airway neutrophil-mediated inflammation. The microbiome has the potential to provide valuable information regarding disease phenotype/endotype, treatment responses and targets for future therapy.
Chronic Obstructive Pulmonary Disease (COPD) is a common chronic disease that is characterized by persistent airflow limitation, that is due to airway and/or alveolar abnormalities usually caused by significant exposure to noxious particles or gases, particularly cigarette smoking. Latest updates of the Global Burden of Disease emphasize the dramatic size of the problem. In 2015, 3,2 million people died from COPD worldwide, an increase of 11,6% compared with 1990. The overall prevalence of COPD increased by 44,2% and was associated with a significant increase of disability-adjusted life years. In Sweden the prevalence of COPD is approximately 8% bringing the annual total estimated cost for society of 9.1 billion SEK. About 1/3 of patients with COPD undergo periods of acute worsening of respiratory symptoms, particularly dyspnea. Acute worsening of respiratory symptoms is associated with increased in-hospital mortality (up to 20%), short term- (up to 60% at 1 year) and long-term mortality (> 50% at 5 years) and high risk of re-hospitalization. Because patients with COPD often suffer concomitant disorders that significantly worsen their health status and vital prognosis, the management of the patients is not only the management of COPD but must include identification and treatment of other concomitant chronic diseases. Accurate diagnosis, assessment of severity, and long-term interdisciplinary management of both COPD and concomitant chronic diseases in patients with COPD could be associated with a decreased number of hospitalizations and deaths, improved quality of life and decreased health care utilization in the following 3 years. This longitudinal study will evaluate the effectiveness of detailed phenotyping and comprehensive multidisciplinary management of COPD and multimorbidity in patients. This is a prospective, open label, cohort study using design of intervention and registries data. The anticipated study time is 5 years, with 3 years of intervention (including 2 years of recruitment period) and 1-year data collection from the National Registries. The study will compare number of rehospitalizations from all causes of patient recruited after a hospitalization due to acute exacerbations of COPD to control patients included from the Swedish Airway Register (SAR). The selection of the control population within the SAR is based on risk score matching. At the first visit a thorough individual's assessment will be performed. The assessment includes information about demographics, COPD and exacerbations, medical history, comorbidities, vital parameters, blood and sputum tests and assessment of quality of life. Based on the outcome from the assessment and disease phenotype, personalized care plans will be prepared and given to the patients, including dietary program, adjusted exercise program, psychological counselling, treatment of comorbidities etc. Patients will come for planned follow-up visits, according to the protocol. The last visit will take place at 5th year after the study start. The "end of study" is defined as last visit of the last subject or if the effectiveness of the intervention is shown before. Data collected at eCRFs will be combined with the data from SAR and complemented with data from Swedish National Registries.
Chronic Respiratory Disease (CRD), particularly asthma and chronic obstructive pulmonary disorders (COPD) are leading causes of mortality and reduced quality of life due to its wide-reported association with other multi-morbidities.There is limited knowledge on the burden of CRD in the rural communities in Bangladesh due to poor awareness on the impact of CRD on quality of life and unavailability of diagnostic facilities due to weaker primary healthcare settings. The study aims to estimate the CRD burden in Bangladesh in a large representative population to draw the attention of policy makers to the creation of social awareness and improvement of primary healthcare infrastructure for respiratory disease in Bangladesh. The study is a prospective observational one in nature. The study will be implemented in Mirzapur, a rural sub-district of Tangail district in Bangladesh within the period of February to May 2021. A total of 981 participants will be enrolled from the study. Verbal consent will be taken initially. Participants who are assessed to be COVID-19 negative will be invited for a visit to the mobile clinic following national health guidelines to perform the spirometry. The study team will provide an information sheet (written in local language) that describes the study aim and objectives with potential risk benefits to the participants. All participants will be enrolled through written consent and satisfactory response to the patient information sheet. The Research Assistant (RA) will collect the relevant metadata such as demographics, information on risk factors, screening questionnaires relevant to asthma and COPD, reported health status and symptoms related to CRD etc. from the participant after obtaining the written consent. Data quality will be ensured by the Field Research Supervisor through checking all the collected information. The enrolled participants will undergo spirometry for the evaluation of their lung function. Spirometry will be collected by trained personnel and will be quality checked by an expert panel at CHRF. Repeated collection will take place in the event if the test results do not pass quality checking. Participant will also be invited to the study clinic within the next 10 days after assessment for any further clinical assessment that is deemed necessary by the study physician. The collected data and spirometry reports will be reviewed to evaluate the CRD patient in terms of their disease. The study will analyse the rate of CRD burden stratified by age, sex, and income group. The productivity loss will be measured in terms of work hours lost due to CRDs.
This study aims to objectively evaluate the clinical efficacy and safety of Traditional Chinese Medicine in the treatment of AECOPD Risk Window, providing a basis for the formulation of TCM treatment plan with AECOPD.
The project will be pursued in our respiratory, autonomic nervous system physiology laboratory (Respiratory, autonomic nervous system physiology laboratory, Department of Pneumology and Intensive Care Medicine, RWTH Aachen University Hospital; Head of Department: Professor Michael Dreher). Overactivity of the sympathetic nerve activity (SNA) axis with "centrally" increased heart rate and peripheral vasoconstriction is a known phenomenon in patients with systolic heart failure (HF) and has recently been described in patients with primary lung disease as seen in chronic obstructive pulmonary disease (COPD). However, systematic analyses on this clinically relevant topic are currently lacking. Thus, using a comprehensive, multimodal approach and state-of-the-art technology, this research project is designed to determine the extent and nature of increased SNA in COPD (AIM 1) and evaluate the underlying mechanisms (AIM 2). The project will address the following hypotheses: 1. In COPD, concomitant obstructive sleep apnea is independently associated with increased SNA. 2. Precapillary pulmonary hypertension (PH), inspiratory muscle dysfunction and systemic inflammation describe a COPD phenotype characterised by increased SNA with a different subtype.
This study will last for 5 years (2021.2.25-2025.12.31). 210 patients (70 cases in each group) will be enrolled in this study. Eight centers in China will participate in the study. The patients will be treated with bronchoscopy alveolar lavage, and 60 ml of bronchoalveolar lavage fluid will be collected for the next-generation sequencing of airway microorganisms. The patients will be followed up for 4 years to observe the changes of lung function, Fractional exhaled nitric oxide (FENO) and clinical symptoms.
To Evaluate the Outcome of cardio selective beta1 (β1-) blockers use in patients with chronic obstructive pulmonary disease. Patient education about the COPD and their medications.
This investigator-initiated, prospective, single center, randomized, controlled clinical trial enrolled patients with stable Global Initiative for Chronic Obstructive Lung Disease stage II-IV chronic obstruction pulmonary disease. The primary outcome was 2-year acute exacerbation rates.
The aims of the study are to compare long-term one-year outcome with or without AirvoTM in stabile hypercapnic COPD patients, who are non-compliant to NIV after an acute exacerbation of COPD.
Chronic obstructive pulmonary disease (COPD) is a common disease that endangers people's health, causing severe economic and treatment burdens. Sleep breathing disease, as a complication of COPD, increases the hospitalization rate and mortality of COPD. At present, community doctors have insufficient knowledge of COPD and its complications, and they also lack standardized screening and related disease management capabilities. This trail intends to use IoT medical technology to screen for COPD combined with sleep breathing diseases. It can establish a two-way referral channel between primary community hospitals and higher-level hospitals, which provides early warning services for COPD combined with sleep breathing diseases. This trial explores the impact of sleep breathing disease on COPD's acute exacerbation, which improves the understanding of COPD patients combined with sleep breathing diseases. It also improves COPD management and its complications control at the community-level and reduces COPD patients' potential risks and treatment burdens. It also explores tiered diagnosis and treatment models for COPD, promotes the construction of intelligent IoT infrastructure, and enhances standardized diagnosis and treatment of COPD at the grassroots level in China.