View clinical trials related to Lung Diseases, Obstructive.
Filter by:Chronic obstructive pulmonary disease is a common respiratory condition that is characterized by inflammation of the large and small peripheral airways , the alveoli and adjacent capillary networks. Severe airflow obstruction that imposes a significant load on the respiratory system is a major manifestation of Chronic obstructive pulmonary disease. The reduced expiratory airflow also causes air trapping at the end of expiration , producing alveolar pressure that are higher than atmospheric pressure before the next breath. This condition is intrinsic positive end-expiratory pressure .
Aging of the population is dramatically increasing the number of hospitalized patients, with the consequent challenges of limited medical personnel and resources in hospitals. Wireless technologies that create highly connected healthcare environments are developed to help hospitals address these issues, once these technologies are perfectly integrated in the hospital environment with respect to IT infrastructure for big data storage. Such devices have proven remarkable efficiencies in monitoring patients with high patient safety, data accuracy and security, which are essential to provide high quality patient care, reduce health-related costs and optimize the management of high numbers of patients. Cough is the most common condition that results in a visit to the physician. Often coughs are benign, but sometimes can be the sign of exacerbations of a chronic respiratory disease. Exacerbations are defined in the Global Initiative for Chronic Obstructive Lung Disease (GOLD) document "as an acute event characterised by a worsening of the patient's respiratory symptoms that is beyond normal day-to-day variations and leads to a change in medication". It is assumed that, if coughs were remotely monitored, hospitals might be unburdened, patients would be empowered to self-manage their health, and that prevention of serious respiratory diseases might be facilitated, thus improving health outcomes. Unfortunately, remote monitoring for cough that rely on self-reporting is impractical, as patients do not record data very reliably. On the contrary, a bed sensor under the mattress connected to a medical data analysis platform might monitor patients' micro-movements at night and alert the medical staff as soon as there is a cough exacerbation.
This study aims to compare the efficacy of three therapies for chronic obstructive pulmonary disease (COPD) patients: one, conventional drug based on Global Initiative for Chronic Obstructive Lung Disease (GOLD) 2017 and Chinese Medical Association Guidelines; another, acupuncture, an important part of traditional Chinese Medicine; and finally, the combination of conventional drug and acupuncture, and then determine which therapy is the most suitable for patients with COPD.
COPD is the fourth cause of death worldwide and it is expected to be the third in 2020. Non-invasive ventilation (NIV) has a positive impact in reducing mortality related to chronic respiratory failure in stable patients with COPD. Moreover, the addition of home NIV to home oxygen therapy reduces hospital admissions and improves patients outcomes. Patients monitoring is crucial. It is increasingly recognized the potential of telemedicine in reducing morbidity and mortality, as well as healthcare utilisation and its associated costs. In particular, home telemonitoring (TM)- a technology measuring patients`clinical parameters and symptoms at home and allowing communication between healthcare professionals and patients over distance- has gained much attention. However, despite a growing body of evidence for TM in the management of COPD and other chronic diseases, the benefit of telemonitoring for Home mechanical ventilation concerning clinical and economic outcomes remains to be clearly demonstrated. The study aims to assess the impact that telemonitoring would have NIV efficacy, patient quality of life and satisfaction, through a prospective randomized study.The primary endpoint is the time for appropriate adaptation and therapy efficacy, defined as average SatO2 to 90% in 24h oximetry.
A growing body of physiological evidence now exists to support a potential role for inhaled cannabis in the medical management of adults with chronic obstructive pulmonary disease (COPD), particularly as it may related to improving pulmonary function, alleviating the symptom of breathlessness and improving exercise endurance. The purpose of this randomized double-blind crossover trials is to evaluate the efficacy and physiological mechanism(s) of action of inhaled vaporized cannabis targeted to relief of physical activity-related breathlessness and exercise endurance in symptomatic patients with severe-to-very severe COPD.
A phase 3 study to evaluate efficacy and safety of HCP1202
Introduction: in the course of the research, the investigators will develop a decision-support system (comorbidity-DSS) consisting (1) a knowledge base (KB) consisting of (a) computer-interpretable clinical guidelines for type 2 diabetes and 2 other diseases from: obstructive pulmonary disease, osteoporosis, hypertension, and osteoarthritis; and (b) an ontology of relevant general medical knowledge that could complement (a) in order to propose non conflicting treatment options not mentioned in the clinical practice guidelines; and (2) an algorithm that matches the KB with a patient's data set to identify the guidelines-based recommendations applicable for the patient and their interactions and which proposes ways to mitigate conflicting interactions (e.g., suggesting to select intervention A.2 (instead of A.1) from guideline A and intervention B.3 (instead of B.1) from guideline B together with an action B' mentioned in the general medical knowledge, because these interventions are not conflicting yet A.3 fulfills the same goals as intervention A.1 and intervention B.3 + B' together fulfill the same goal as B.1). Research purpose: Assessing the correctness and completeness of detection of recommendation-interaction and generation of conflict-free recommendations by a comorbidity-DSS Research question: How will the usage of the comorbidity-DSS affect the completeness and correctness of clinicians regarding (a) detection of interactions between recommendations originating from different clinical guidelines applicable for patients with comorbidities and (b) identification of interventions that fulfill the guidelines' goals and are not conflicting.
Respiratory dysfunction following cardiac surgery is well documented and due in part to the location of the incision and nature of the surgery. Post-operative pulmonary complications (PPCs) remain a significant problem following cardiac surgery, sometimes causing prolonged length of stay in hospital as well as increased morbidity and mortality; with the greater risk to older adults and individuals with obstructive lung disease. Positive expiratory pressure (PEP) therapy is thought to increase lung volumes and facilitate secretion clearance. The purpose of this study is to investigate whether the addition of oscillating PEP therapy to standard postoperative treatment is more effective in decreasing the incidence of PPCs and increasing functional capacity at time of discharge in 'high risk' patients undergoing elective cardiac surgery.
To evaluate the pulmonary gas exchange response to a therapeutic high dose of inhaled indacaterol (300 mcg) in 20 outpatients with stable symptomatic COPD B and D GOLD 2011 groups. Measurements on a single day before and after 60 and 120 minutes of indacaterol will include arterial PO2, PaCO2 and pH. AaPO2; SaO2 (by pulse oximetry) and oxygen and carbon dioxide in exhaled breath, systemic arterial pressure and heart rate will also be measured/calculated. Cardiac output will be directly measured by bio-impedance.
Chronic Obstructive Pulmonary Disease (COPD) is a frequent disease, with increasing prevalence. Pulmonary rehabilitation through general exercise training (GET) is a corner stone of COPD care. Inspiratory muscle training (IMT) as a stand-alone therapy decreases dyspnea and improves exercise capacity. Whether IMT combined with GET adds a supplementary benefit in the rehabilitation of COPD patients is however uncertain.