Active clinical trials for "Lung Diseases"

Researchers have found a link between chronic obstructive pulmonary disease (COPD) and heart disease; however, a link is all they have found. Cardiovascular health in COPD is controlled by different mechanisms including vascular health and systemic inflammation. The investigators have collected preliminary data to support that concentrations of Sirtuin 1 (Sirt1), a protein that plays a key role in cardioprotection, may be involved in cardiovascular health in patients with COPD. Resveratrol, an over the counter natural polyphenol found in a variety of food, is a direct activator of Sirt1 and has been used to improve cardiovascular health in different cohorts. The current project is an attempt to expand previous findings and explore the effects of the sub-chronic use of resveratrol in sustaining the improvements in cardiovascular health in COPD.

The main objective of the study is to evaluate dose-exposure and safety of nintedanib in children and adolescents with fibrosing Interstitial Lung Disease (ILD).

Patients suffering chronic hypercapnic respiratory insufficiency (e.g. in chronic obstructive pulmonary disease, obesity hypoventilation syndrome) benefit from home mechanical ventilation. These patients are complex; and the ventilator´s parameters should be set-up according to the underlying disease and particular patient's characteristics. The non-invasive ventilation therapy is mostly titrated while the patient is awake, hence Problems, such as Patient-Ventilator asynchrony, arising while sleeping on the ventilator therapy would remain undetected. Sleep studies, such as polysomnography or polygraphy and transcutaneous carbon dioxide monitoring could be valuable tools to fine-tune the ventilator's settings. This could foster the ventilator´s effectivity and patient satisfaction, thus therapy's adherence. Nevertheless the sleep studies are expensive, time-consuming and not widely available. The aim of this study is to learn the findings of sleep studies when they are performed on stable patients on home mechanical ventilation as part of their routine check-ups. In this context, it will be assessed whether the sleep studies' findings lead to a change (adjustment) of the ventilator´s therapy. Moreover, this study aims to investigate whether the absence of sleep studies would result in missing important events that require an adjustment of therapy. The results of this study could provide information that lead to a more standardized protocol of follow-up checks of patients on home mechanical ventilation in a cost-effective manner.

The primary purpose of this study is to evaluate lung function and health related quality of life (HRQoL) after 84 days of treatment with a single inhaler triple therapy combination of FF/UMEC /VI [100/62.5/25 microgram (mcg)] once daily via ELLIPTA® compared with a multiple inhaler combination therapy of Symbicort Metered Dose Inhaler (MDI) (budesonide/formoterol 320/9 mcg) twice daily plus Spiriva HandiHaler (tiotropium 18 mcg) once daily. The study will inform healthcare providers that subjects can be effectively and safely switched to FF/UMEC /VI single inhaler therapy from a multiple inhaler triple therapy regimen of Symbicort MDI and Spiriva Handihaler. Eligible subjects will enter a 4-week run-in period during which they will be administered budesonide/formoterol (320/9 mcg) twice daily plus tiotropium (18 mcg) once daily plus placebo via ELLIPTA. Following the run-in period, subjects will be randomized to receive one of the following study treatments for 84 days: 1) FF/UMEC /VI 100/62.5/25 mcg via ELLIPTA once daily in the morning plus two inhalations of placebo to match budesonide/formoterol via MDI, twice daily plus placebo to match tiotropium via HandiHaler once daily in the morning or 2) Budesonide/formoterol 320/9 mcg via MDI, twice daily plus tiotropium 18 mcg via HandiHaler once daily in the morning plus placebo via ELLIPTA once daily in the morning. Subjects will then enter a one week follow-up period. The total duration for a subject in the study will be approximately 17 weeks. ELLIPTA is a registered trademark of the GlaxoSmithKline group of companies.

This study is designed to determine the effect of Nebulized Magnesium Sulphate as an add-on therapy with conventional treatment on In-hospital outcome in patients having acute exacerbation of COPD.

Design: this pilot-study uses a two-group random assignment pretest-posttest design. Once the groups are being selected an envelope will be mailed to the participant with the printed version of the exercise program and surveys, a portable SpiroBank Smart FN multi parameter spirometer (MIR), a finger pulse oximeter (LOOKEE), a diary, and a prepaid envelop for a subsequent post-intervention return of the equipment and surveys and the diary. Intervention: A) Exercise program: evidence-based and user friendly educational materials with recommendations on breathing and physical exercises will be developed. B) Patients intake: in a zoom meeting, a registered therapist (Pl) in charge of implementing the intervention will request informed consent to participate in the study, explain specifics of the intervention to each participant, and will conduct an initial assessment. C) Intervention (8 weeks): using the participants' initial assessment and personal characteristics, the therapist will provide personalized recommendations (e.g. maximum heart rate, minimum Sp02), explain the educational materials, and instruct patients on safety precautions (how to pace themselves, when to seek professional or emergency care). All participants (and immediate caregiver I necessary) will receive training: 1) basic device management (join a zoom meeting, watch a YouTube video), 2) use of the portable spirometer and its associated app, 3) use of finger pulse oximeter and 4) recording of the values in a dairy. Group one: will be asked to follow the exercise program with a small group of peers (2 groups/6 participants each) in a zoom meeting 3 times a week/45 min each {including 5 min before and 10 min after the meeting for free talk-chat between the participants e.g. questions, perceptions, etc.). The therapist will lead the first three meetings, gradually encourage participants to take turns leading the exercises with the goal of identifying /empowering potential patient leaders. Beginning with the fourth meeting, participants will be encouraged to connect to the meeting and follow their exercise program on their own, taking into account their individualized recommendations. The RA will organize and attend the zoom meetings to resolve general questions (e.g. equipment, platforms, etc.) and will act as a direct point of contact between the therapist and the participants. Group two: will be asked to follow the exercise program 3 times a week/30 min each while watching a pre-recorded YouTube video. D) Self-monitoring: patients will be asked to wear the finger pulse oximeter at all times while exercising, so that they can control their pace while avoiding exceeding target values (HR, Sp02). They will be asked to record in their HR and Sp02 values before and after participation in every session of the exercise program in a diary. E) Support: participants will be able to contact the therapist at any time during the study if they have questions or concerns. Otherwise, they will receive a follow-up phone call once a week from the RA.

The study is designed to compare circuit training and otago exercise program for improvement of balance in COPD patients. Although both techniques are effective for balance training but Otago exercise program is home-based exercise program, which, if proven effective, will help the COPD patients to do work up at home, thereby reducing cost of hospital visits and improving balance ability and thus the quality of life more effectively.

Double Blind, Multinational, Multicentre, Randomised, Placebo-Controlled, 3-Way Cross-Over Study To Evaluate The Effect Of A Triple Combination Of Beclometasone Dipropionate And Formoterol Fumarate Plus Glycopyrronium (CHF5993) And A Dual Combination Of Beclometasone Dipropionate Plus Formoterol Fumarate (CHF1535) Both Administered Via pMDI On Lung Hyperinflation And Exercise Endurance Time In Subjects With Chronic Obstructive Pulmonary Disease (COPD)

Background: Regular physical activity is an evidence-based adjuvant therapy of chronic heart failure or chronic lung diseases. Structured exercise training is safe, increases exercise capacity and quality of life, relieves symptoms and reduces hospitalization rates. Even a trend towards reduction of mortality has been identified. However, dyspnea and fatigue, typical symptoms of heart or lung failure, force patients to physical inactivity which fatally aggravates deconditioning and exercise intolerance, leading to an increased risk of hospitalization and a loss of independence and quality of life. To break through this vicious circle physical activity must be restored, since exercise intolerance can be successfully improved by physical training. Purpose: This study will address the challenging task of remobilizing patients with advanced chronic lung or heart failure in a functional New York Heart Association class III-IV by using an externally physically-supported exosuit movement therapy. This soft, wearable robot (fig. 1) assists mobilization according to individual needs by activating neuromuscular feedback systems, promoting physical activity and preventing early physical exhaustion. The investigators hypotheses that an exosuit-supported training increases exercise capacity and quality of life in a greater degree than non-supported training. Methods: The study will consist of two parts investigating i) the feasibility, tolerance and safety (n= 30) and ii) the efficacy of an exosuit device-supported training (n=30). In i) patients will perform a walking test and a set of everyday life skills or participate in a standardized rehabilitation sports program. In ii) patients will be randomized in a 2:1 ratio for an exosuit-supported or non-supported exercise training protocol, training 3 units per week for 8 weeks. Assessment of outcome will be performed by various functional, mobility and endurance tests, questionnaires and clinical parameters. Furthermore, the transfer of regained motor and balance skills to everyday life will be analyzed.

Efficacy of Fluticasone/Formoterol in COPD Treatment. The Effect study.