View clinical trials related to Lung Diseases.
Filter by:Chest mobility exercise versus proprioceptive neuromuscular facilitation in patients with chronic obstructive pulmonary disease
This research will be conducted to examine the effect of the lung health promotion program based on the 5A self-management support model on some physiological parameters, Physical Activity Scale in the Elderly score, sleep quality, health status perception and vaccination status of adults aged 65 and over. The research will be carried out as a randomized controlled study with a parallel design. We estimate that the respiratory functions of the elderly will improve, their physical activity levels will increase, immunization against common infectious diseases will increase and people's health perceptions will improve. with the lung health promotion program based on the 5A self-management support model.
This work aims to evaluate whether the segmentation of vowel recordings collected from patients diagnosed with COPD and healthy control groups can increase the classification precision of machine learning techniques.
Chronic obstructive pulmonary disease (COPD) is a debilitating and progressive respiratory condition characterized by irreversible airflow limitation. The overall 5-year survival for COPD patients is 56-92%, depending on disease severity. Considering the recent introduction of the Budesonide, Glycopyrronium bromide and Formoterol fumarate Metered-Dose Inhaler (BGF MDI) in COPD therapeutic arsenal as well as the increasingly important role of real-world (RW) data in health care decisions, as it bridges gaps not addressed by randomized clinical trials, there is a need for RW evidence studies that can serve as inputs for Health Technology Assessment (HTA) submissions. In view of this need, this study is designed to generate RW evidence on the clinical and patient-reported outcomes of treatment with BGF MDI over a 52-week treatment period in routine care settings in Greece as well as to shed light on the reasons for switching from dual to triple therapy with BGF MDI, aiming at further characterizing the multifactorial aspects of inadequate COPD management that lead physicians to step-up treatment. The study is mainly descriptive in nature and is not planned to reject or affirm any formal statistical hypothesis. This is a single-country, non-interventional, multicenter, 52-week prospective cohort study, mainly based on primary data collection, which will include adult patients with moderate to severe COPD newly prescribed maintenance treatment with BGF MDI in routine care settings of Greece. This study design has been selected on the basis that such studies essentially, through collecting data generated in the course of routine clinical care about management practices and their outcomes from both the physician and patient perspective, help to bridge the knowledge gap between clinical research in controlled randomized settings and daily clinical practice. In line with the purely observational and non-interventional nature of the study, no changes to the current standard of care will be required and all aspects of treatment and clinical management of patients will be in accordance with local clinical practice and at the discretion of the participating physicians. The conduct of this study will adhere to the applicable national regulatory requirements governing the conduct of such type of clinical research. In addition, the study has been designed and will be conducted and reported in accordance with the ethical principles laid down in the Declaration of Helsinki, the Guidelines for Good Pharmacoepidemiology Practice (GPP) of the International Society for Pharmacoepidemiology, the Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) guidelines where applicable, the European Union (EU) General Data Protection Regulation (GDPR), and the local rules and regulations. Patients will have been prescribed BGF MDI (Trixeo Aerosphereâ„¢) prior to informed consent (IC) obtainment and will be treated according to the local prescribing information (Summary of Product Characteristics [SmPC]) of the study medication and routine medical practice in terms of visit frequency and type of assessments performed. The assignment of the patient to this therapeutic strategy is not decided in advance by the study protocol but falls within current practice and the prescription of BGF MDI is clearly separated from the physician's decision to include the patient in the current study. In addition, every medical decision including the course of treatment will reflect exclusively the decision of the treating physician in a routine clinical situation according to the product's SmPC. Follow-up visit frequency will be determined by the treating physician, however study-related data will be collected at study enrollment and at 12, 24, 36, and 52-week data collection timepoints post-index (i.e., after BGF MDI treatment initiation) with an allowable time window of ±2 weeks for each data collection timepoint. Data collection at the aforementioned timepoints will be performed in the context of on-site routine visits at the private practices/hospital clinics. In addition, a telephone contact will take place at 4 (±1) weeks post-index for the sole purpose of administering COPD Assessment Test (CAT) by phone interview with the patient. Any visits/contacts occurring at other times not pre-planned in the context of the study will not be captured for the purposes of this study, except for safety-related information, exacerbation data, information on BGF MDI and concomitant COPD-related treatments, that will be collected on a continuous basis. Data collection at all indicated timepoints will be performed in the context of on-site routine visits at the private practices/hospital clinics. There are no dose regimens or diagnostic procedures pre-defined within this study plan. Participation in this observational, real-life study and its documentation procedure will not affect the routine treatment situation in any way.
This work aims to evaluate whether voice recordings collected from patients diagnosed with COPD and healthy control groups can be used to detect the disease using machine learning techniques.
A trial to evaluate the safety, tolerability, and functionality of 3P-100, in subjects with Pulmonary Hypertension (PH) accompanying Interstitial Lung Disease (ILD), PH-ILD
To investigate the feasibility of performing a future real-world randomised controlled trial to determine the clinical effectiveness of ArtiQ.Spiro in supporting diagnostic performance of primary care staff in the interpretation of spirometry
The aim of the CHOROS ORION study is to describe patients' clinical and self-reported outcomes of treatment with BGF in Italy through effectiveness, clinical and self-reported measures assessed pre- and post-treatment initiation, up to one year of observation period. The study will focus primarily on the change in self-perceived health status in the first 12 weeks of treatment. This will allow to assess the short-term impact of treatment, thus contributing to fill the gap of knowledge from the current available medical literature. Moreover, in order to provide also a broader view, patients will be followed up to 52 weeks, where possible. The study results will be interpreted in the context of an observational study design where multiple factors, in addition to the new treatment, may contribute to the treatment effect.
Study design: A prospective cohort study with a longitudinal design, with several parameters measured serially at baseline and at pre-specified time points during three to five years of clinical observation. Primary objective: To validate quantitative analysis of lung sounds as a marker of disease progression in a cohort of patients with Interstitial Lung Disease (ILD) via correlation with the extent of fibrosis on HRCT, measured both via visual scoring and quantitative CT assessment, and other validated parameters of disease progression such as FVC, tolerance to exercise and patient-related outcomes (symptoms and quality of life). Secondary objectives: To determine the prognostic value of quantitative analysis of lung sounds and a series of novel putative biological markers, obtained from peripheral blood and bronchoalveolar lavage, toward poor outcomes (death, categorical decline of % predicted FVC >10%, acute exacerbation or respiratory-related hospitalisations) as compared to more conventional clinical, physiology and radiologic measurements.
Progressive destruction of the lungs is the main cause of shortened life expectancy in people with cystic fibrosis (pwCF). Inflammation and respiratory infections play a key role in CF lung disease. Previous studies have shown that an increase in inflammatory markers predicts structural lung damage. Close monitoring of pwCF is crucial to adequately provide optimal care. Pulmonary management for pwCF involves treating infections and exacerbations and promoting exercise and mucociliary clearance to slow or prevent structural lung damage. To evaluate the treatment and incite timely interventions it is important for the pulmonary physician to be well-informed about the condition of the lungs. The main monitoring tools in regular CF care are lung function, sputum cultures, symptom reporting and more recently imaging by chest computed tomography (CT-scan) or magnetic resonance imaging (MRI). Strangely enough, there are currently no monitoring tools used in clinics to measure inflammation in the lung, although this is a main factor for progressive lung disease. New highly effective modulator therapy (HEMT) such as elexacaftor/tezacaftor/ivacaftor [ETI, Kaftrio®] is transforming CF treatment, vastly improving lung function and reducing exacerbations. Initial CFTR modulators like ivacaftor and lumacaftor/ivacaftor also improved lung function and reduced exacerbations, but studies showed that lung inflammation was still present. The long-term impact of ETI and its effect on inflammation is not yet known. Thus, monitoring pwCF on HEMT may be different from before, as lung damage seen on chest CT will be less apparent and lung function will improve considerably, therefore not being adequate markers for subtle changes in the lungs. Thus, the focus of monitoring in the era of highly effective CFTR modulators needs to change preferably focusing on measuring lung inflammation. An ideal monitoring tool for lung inflammation in pwCF should be non-invasive, efficient, and provide accurate and sensitive results. Currently, sputum and BAL are the most common methods for assessing inflammation, but BAL is invasive and sputum may not always be available. Exhaled breath analysis by the electronic nose (eNose) or gas chromatography-mass spectrometry (GC-MS) of volatile organic compounds (VOCs) shows promise as a non-invasive monitoring tool. Other promising markers and techniques are inflammatory markers in the blood (cytokines and micro-RNA (miRNA)) and urine. Thus, the objective of this project is to design novel, minimally invasive monitoring techniques capable of identifying lung inflammation in pwCF undergoing highly effective CFTR modulator therapy (ETI) compared to those not using CFTR modulators. The efficacy of these innovative techniques will be evaluated and verified against inflammatory markers in sputum, spirometry, and validated symptom and quality of life scores.