View clinical trials related to Pulmonary Emphysema.
Filter by:This is a multicenter, prospective, observational surveillance enrolling 140 consecutive patients with severe emphysema who are candidates for bronchoscopic lung volume reduction using Zephyr Endobronchial Valve at up to 20 centers across Japan and followed for 12 months.
The objective of this study is to evaluate its safety and feasibility of the Airway Bypass Stent System in patients with severe emphysema. The study will collect clinical data through 12 months to assess procedural and device safety.
In some patients with chronic obstructive pulmonary disease (COPD) the breathlessness is caused by hyperinflation of the lungs. This causes difficulty breathing air out and makes it harder to breath in new air and limits the movement of the diaphram. The diaphragm is the muscle used for breathing between the chest and the stomach. Some of these patients can receive treatment with endobronchial valves, where one-ways are inserted into the bronchial system the let out some of the excess air, and thereby relieve breathlessness. The goal of this observational study is to investigate the effect of endobronchial valves on the mobility of the diaphragm in patients with chronic obstructive pulmonary disease. The main questions it aims to answer are: - If the movement of the diaphragm improves after treatment with endobronchial valves. - If there is a link between improvement of diaphragm function and improvement of symptoms, lung function and physical ability. - If ultrasound scan immediately after the treatment will predict which patients will benefit from the treatment. Participants will undergo ultrasound before, 1 day after and 90 days after the procedure, and lung function examinations from their already planned control visits will be collected.
The use of lung ultrasound is instrumental in the evaluation of many chest pathologies and its ability to detect pleuro-pulmonary pathology is widely accepted. However, the use of ultrasound to explore the state of the peripheral lung parenchyma, when the organ is still aerated, is a relatively new application. Horizontal and vertical artifacts are separate and distinct artifacts that can be seen during ultrasound examination of the lungs. While the practical role of lung ultrasound artifacts is accepted to detect and monitor many conditions, further research is needed for the physical interpretation of ultrasound artifacts. These artifacts are diagnostic signs, but we don't fully understand their origin. The artifactual information deriving from the surface acoustic interaction, beyond the pleural line, in the ultrasound images of the normally aerated and non-deflated lung, represents the final result of complex interactions of acoustic waves with a specific three-dimensional structure of the biological tissue. Thus, the umbrella term "vertical artifacts" oversimplifies many physical phenomena associated with a pathological pleural plane. There is growing evidence that vertical artifacts are caused by physiological and pathological changes in the superficial lung parenchyma. Therefore, the need emerges to explore the physical phenomena underlying the artifactual ultrasound information deriving from the surface acoustic interaction of ultrasound with the pleuro-pulmonary structures.
This is a prospective, open-label, multi-center, single-arm study planned to enroll 200 subjects with heterogeneous emphysema and collateral ventilation (CV) in the target lobe. Subjects will undergo instillation of AeriSeal Foam in the target lobe and subsequent assessment of CV status using Chartis Pulmonary Assessment System. Subjects with CV- status will then undergo placement of Zephyr Valve in the target lobe for bronchoscopic lung volume reduction (BLVR) and be followed for 24 months.
The goal of this clinical trial is to test the feasibility of an implant for severe emphysema in up to 30 participants at up to 5 study centers located in Europe and the United Kingdom. The main questions this clinical trial aim to answer are: Is it safe? Does it work? Participants who meet eligibility criteria will have up to two procedures 30 days apart, in which up to 3 implants will be placed in each lung during the procedure(s). Participants will be asked to return for follow-up visits at 30 days, and 3, 6, and 12 months after the procedure(s).
Phase 2 study to compare INBRX-101 to plasma derived A1PI therapy in adults with AATD emphysema
The goal of this clinical trial is to test the feasibility of an implant for severe emphysema in up to 30 participants. The main questions it aims to answer are: Is it safe? Does it work? Participants who meet eligibility criteria will have up to two procedures 30 days apart, in which up to 3 implants will be placed in each lung during the procedure(s). Participants will be asked to return for follow-up visits at 30 days, and 3, 6, and 12 months after the procedure(s).
The goal of this clinical trial is to evaluate whether voice or capnometry, alone or in combination with other (non invasive) biomarkers can be used to detect emphysema on chest CT-scan in people with chronic obstructive pulmonary disease (COPD). The main question it aims to answer is: • Can a machine-learning based algorithm be developed that can classify the extent of emphysema on chest CT scan from patients with COPD, based on voice and/or capnometry. Participants will: - perform different voice-related tasks - perform capnometry twice (before/after exercise) - perform a light exercise task between tasks ( 5-sit-to-stand test) - undergo one venipuncture
Prolonged air leak is reported in up to 60 to 75% of patients after lung operation in the presence of severe lung emphysema. The effect of the non-powered AEONTM Endostapler as compared to the Echelon FlexTM Powered plus stapler on the volume and duration of air leak and on the time to chest drain removal after lung operation in the presence of severe lung emphysema will be investigated in a randomized, prospective, single-blinded clinical trial.