View clinical trials related to Chronic Respiratory Disease.
Filter by:The purpose of this clinical study is to determine if a learning effect exists when the 5STS is assessed remotely via videoconference in patients with COPD.
The purpose of the clinical study is to study the effect of health-related quality of Life of information aimed at reducing the impact of a personality trait (openness to experiences) identified as a risk of non-response to pulmonary rehabilitation in patients with chronic respiratory diseases. This study will determine if a specific information focusing on characteristics of openness to experiences personality trait will lead to better benefits than a general information.
Subjects will use the Gabi system on a daily basis for 3 months, each time the subject is resting or asleep. The Gabi system will recording the SpO2, pulse rate, respiratory rate and movements of the subject. The objective of this study is to perform a first assessment of the range of most potentially clinically relevant indications for use of the Gabi system for children < 6 years old with underlying medical conditions. This is performed by asking HCPs to review the data measured by the Gabi system after taking a medical decision independently from the Gabi data and to assess the potential clinical utility of the Gabi system. The usability of the system will also be assessed throughout questionnaires filled out by the HCPs and by the caregivers. *During this study, the data collected by the Gabi system are not intended to be used by caregivers or HCPs to take any (medical) decisions.
Chronic Respiratory Diseases (CRDs) are associated with substantial morbidity and mortality, ranking as the third leading cause of death worldwide. Pulmonary rehabilitation (PR) is a fundamental evidence-based intervention for the management of a variety of CRDs, such as Chronic Obstructive Pulmonary Disease (COPD) and Interstitial Lung Diseases (ILDs). However, the benefits of PR tend to decline over time and there is currently no strong evidence that patients translate those benefits into a more active lifestyle. There is an urgent need for evidence-based interventions to promote physical activity (PA) participation, whilst maintaining PR positive effects in the long-term. Community-based PA interventions adjusted to the local context, as well as patients' needs and preferences, might be a key strategy to meet this target. CENTR(AR) will be a sustainable response to support healthy lifestyles and enhance long-term PR benefits, by providing access to PR within Primary Healthcare Centres (PHC), followed by the inclusion in a community-based PA program, which embraces urban facilities and available resources.
Although there are a limited number of studies in the literature investigating the effect of yoga on dyspnea, quality of life and respiratory functions of chronic respiratory patients There is no study examining the effect of yoga on sleep and fatigue of chronic respiratory patients. Therefore, this study was conducted to determine the effect of yoga on dyspnea, sleep, and fatigue applied to chronic respiratory patients.
The investigators aim to investigate the effects of a telemonitoring and chatbot-based application of "Living well with COPD" (CAir) on health-related quality-of-life in patients with COPD.
Physical inactivity is a consequence of chronic diseases and on Chronic Obstructive Pulmonary Disease patients is an independent predictor of the risk of hospitalizations and early mortality. As physical inactivity is a modifiable risk factor with healthy lifestyle interventions, health professionals should clinically assess physical activity as a vital sign of patients' general physical condition. SmartReab study aims to characterize physical activity in daily life of 100 chronic respiratory patients at baseline when starting Pulmonary Rehabilitation, at discharge time of the program, at 6 months and 1 year follow-up. The Pulmonary Rehabilitation program will be individually tailored according to patients needs and goals settled within the Rehabilitation team and it will take place at Hospital Pulido Valente, from Centro Hospitalar Universitário Lisboa Norte, in Lisbon, Portugal. To access physical activity in daily life patients will participate in a telemonitoring study for 4 days using a smartphone and an oximeter and also answer to the International Physical Activity Questionnaire. SmartReab technology will provide data of physical activity intensity, heart rate and oxygen levels during awakening periods of daytime. To associate physical activity with other aspects related with health and the impact of Pulmonary Rehabilitation, patients will also take a 6 minute walk test and answer questionnaires related with self-perceived health status, impact of respiratory symptoms on quality of life, dyspnea impact on general mobility and on daily life situations, and also anxiety and depression feelings. The research hypothesis is that Pulmonary Rehabilitation will have a positive impact on physical activity in the short, medium and long terms.
Background & Objective: Inspiratory muscle training (IMT) is known to improve strength and endurance of inspiratory muscles. However, clinical beneficial effects of IMT for patients with chronic respiratory disease remain inconclusive. The purposes of the study are to investigate in patients with chronic respiratory disease: (Year 1) main (diaphragm) and accessory inspiratory muscle (sternocleidomastoid muscle) activation pattern during various IMT loading using group-based trajectory modeling (GBTM); and (Year 2) effectiveness of individualized IMT program (based on results of Year 1) on clinical outcomes. Methods: (Year 1) Patients with chronic respiratory disease with inspiratory muscle weakness will be recruited for the study. Patients will perform 3 inspiratory loading tests (15%, 30%, and 50% of maximum inspiratory pressures) on 3 separate days with the sequence will be randomized. Surface electromyography (EMG) of diaphragm and sternocleidomastoid muscle will be used to use inspiratory muscle activation during various conditions. Other outcomes include maximum inspiratory pressure, and functional exercise capacity will be measured. Inspiratory muscle activation will be used for GBTM analysis. Patient will then be trained with individualized IMT program based on the GBTM analysis input form results of Year 1.
3R aims to increase the access of patients with chronic respiratory diseases (CRD) to pulmonary rehabilitation (PR) in Portugal. The main goals of 3R are: i) design and implement an innovative community-based PR programme; ii) assess the cost-benefit of the community-based PR programme; iii) disseminate and perform knowledge transfer about PR across the country. PR is an evidence-based intervention for the management of CRD and offering PR has been defined as a priority by national/international organizations. However, in Portugal PR is practically inexistent (<1% of "candidate" patients have access). Currently, PR programmes are hospital-based and directed to patients with advanced disease. One of the recommendations to enhance the implementation of PR is the development on novel models of programme delivery. It is hypothesised that community-based programs, direct to patients at all grades of the disease, and involving all stakeholders (health professionals, patients, society, policy makers) may turn PR more accessible. The plan is to implement community-based PR programs in 4 primary care centres of 2 ACES of the centre region of Portugal and assess the impact of such intervention in several domains using surrogate and patient-/family-centered outcomes. A cost-benefit analysis will be performed on acute exacerbations and healthcare utilization. Dissemination will include one conference, activities with the community, courses and an online PR toolkit. Four schools of 2 polytechnics, 2 city councils, the Health Regional Administration-Centre (ARS-Centro) and all respiratory professional and civic national associations are partners.
Patients with chronic lung diseases travelling by plane often suffer with symptoms related to lower oxygen levels they are exposed to while flying. Therefore, patients with respiratory conditions are routinely assessed to establish if they need supplemental oxygen in flight. A hypoxic altitude simulation test (HAST) is often part of this assessment and consists in having patients breathe a oxygen/nitrogen blend with a lower oxygen concentration compared to normal room air, simulating in-flight conditions. Oxygen levels are measured before and after the test through a blood sample (from the earlobe or an artery in the wrist) and with a finger probe. In-flight oxygen is required if the oxygen level in the blood is lower than 6.6 kPa. HASTs are time consuming, costly, and require a dedicated hospital appointment. Using historical data, the Investigators developed scores based on capillary blood gas (blood sample from the earlobe), diagnosis and sex to predict the outcome of the HASTs. The Investigators validated the proposed scores in a separate historic cohort of patients and showed it had good concordance with the HASTs results. In this study, the Investigators want to confirm prospectively if the score, based on blood results (venous and/or earlobe), can predict the outcome of the HASTs and therefore reduce the number of tests performed, travel time for patients, and costs for the NHS. All patients, aged 18 or older, who are having a HAST for clinical purposes at the cardio-respiratory lab at Leeds Teaching Hospital NHS Trust will be invited to take part in the study. The Investigators will record diagnosis, results of HAST and previous spirometry from the medical notes, perform a spirometry if not done in the previous 12 months and collect a blood sample (one tube, 4 mls). With these data, the Investigators will calculate the score and assess its agreement with the outcome of the HAST. Each participant's involvement in the study will last for approximately 90-120 minutes, which is the normal duration of a HAST. The Investigators aim to include up to 280 subjects in the study.