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Lung Disorder clinical trials

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NCT ID: NCT05720845 Not yet recruiting - Lung Disorder Clinical Trials

Effects of Different Ventilatory Strategy on Intraoperative Atelectasis During Bronchoscopy Under General Anesthesia.

Start date: February 8, 2023
Phase: N/A
Study type: Interventional

This trial compares two different types of ventilation for the prevention of partial or complete collapsed lung (atelectasis) in patients undergoing interventional pulmonology procedures under general anesthesia. Ventilatory strategy to prevent reduce the intra-procedural development of atelectasis during interventional pulmonology procedures under general anesthesia.

NCT ID: NCT04311723 Completed - Lung Disorder Clinical Trials

Ventilatory Strategy for the Prevention of Atelectasis During Bronchoscopy Under General Anesthesia, VESPA Trial

Start date: May 27, 2020
Phase: N/A
Study type: Interventional

This trial compares two different types of ventilation for the prevention of partial or complete collapsed lung (atelectasis) in patients undergoing bronchoscopy under general anesthesia. Ventilatory strategy to prevent atelectasis (VESPA) may work better than standard of care mechanical ventilation to reduce the intra-procedural development of atelectasis during bronchoscopy under general anesthesia.

NCT ID: NCT02341326 Active, not recruiting - COPD Clinical Trials

Defective FGFR2 Signaling in the Small Airway Basal Progenitor Cells in COPD

Start date: July 2014
Phase:
Study type: Observational

Early changes associated with the development of smoking-induced diseases, e.g., COPD and lung cancer (the two commonest causes of death in U.S.) are often characterized by abnormal airway epithelial differentiation. Airway basal cells (BC) are stem/progenitor cells necessary for generation of differentiated airway epithelium. Based on our preliminary observations on SAE BC cells and FGFR2 signaling, we hypothesized that suppression of FGFR2 signaling in the SAE BC stem/progenitor cells by cigarette smoking renders these cells less potent in generating and maintaining normally differentiated SAE, shifting these cells towards a COPD associated phenotype. To test this, SAE basal cells will be isolated from cultured cells obtained through bronchoscopic brushings and analyzed through in vitro assays for their stem/progenitor capacities.

NCT ID: NCT02188511 Terminated - Lung Disease Clinical Trials

Effects of Electronic Cigarettes on Lung Biology

Start date: January 2014
Phase: N/A
Study type: Interventional

E-cigarettes are an increasingly popular alternate nicotine delivery system, but nothing is known about the effects of electronic cigarettes on the lungs. We hypothesize that e-cigarettes disorder airway epithelial and alveolar macrophages biology. Our goal is not to carry out a large epidemiologic study of electronic cigarette users to study lung function and other possible abnormal clinical phenotypes, but rather to focus on whether electronic cigarette smoke disorders the biology of the lung cells first exposed to the electronic cigarette smoke, a parameter that is the precursor of abnormalities in lung function and which is far more sensitive than lung function.

NCT ID: NCT00981344 Completed - Arthritis Clinical Trials

Wheeled Mobility in Everyday Life

RERC-4a
Start date: October 2008
Phase: N/A
Study type: Interventional

The project will examine how mobility performance in real life tasks and environments is impacted by the use of specific types of wheeled mobility devices (wheeled walker, manual wheelchair, power wheelchair/scooter). Specifically, the project will: 1) randomly recruit persons who were prescribed a mobility aid within the preceding 1 year and currently use the mobility aid, 2) define key mobility tasks within a public environment, 3) measure mobility performance of subjects as they perform the mobility tasks in each of the four devices, and 4) synthesize and disseminate the results. Study results will be used to establish baseline performance data for researchers and clinicians and to identify design improvements for wheelchairs used by community dwelling elders. All study participants will be required to complete study related questionnaires about their family environment and familiarity with the various types of mobility aids. In addition, physical abilities will be measured at the start of the study, including measures of arm and leg strength, and the ability to walk and push a wheelchair. This will take about 30 minutes. A total of 150 subjects will be recruited among Veterans prescribed mobility aids in the preceding 3-12 months identified through administrative data sources. The mobility aids being studied are all standard types of mobility aids used by people with limited mobility (e.g., wheeled walker, manual wheelchair, power wheelchair/scooter). Analyses will proceed in a stepwise fashion. The first step will be to examine the primary study question relating device type to the dependent variable, with velocity being the primary outcome. The next step in the analysis will be to determine if there is an interaction between medical condition, mobility devices, and the dependent variable. Finally, exploratory analyses will be carried out to examine the relationship between baseline measures of physical function and mobility performance with each of the devices. Study related risks are minimal.