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Pulmonary Disease clinical trials

View clinical trials related to Pulmonary Disease.

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NCT ID: NCT03622528 Not yet recruiting - Clinical trials for Chronic Obstructive Pulmonary Disease

Quantitative Lung Cancer Screening

Start date: July 2024
Phase:
Study type: Observational

The purpose of this project is to validate quantitative lung structure assessment using an automated analysis software (VIDA), for application to low dose computed tomography (LDCT) acquired for lung cancer screening. Currently the software runs on standard dose CT data. In addition, it is the plan to incorporate algorithms into the software to address assessment of any identified pulmonary lesions.

NCT ID: NCT03149471 Not yet recruiting - Pulmonary Disease Clinical Trials

The Role of Endothelial Function Test in Risk Stratification for Early and Late Complications After Pulmonary Embolism

Start date: June 2017
Phase: N/A
Study type: Observational

The aim of this study is to investigate the association between endothelial dysfunction, measured by RHI as assessed by the peripheral arterial tonometry method, and PE complications defined as re-event of PE or DVT, systemic embolism or all-cause mortality

NCT ID: NCT01329159 Not yet recruiting - Clinical trials for Cardiovascular Disease

Cardio-Respiratory Health and Indoor Pollution

Start date: April 2011
Phase: N/A
Study type: Observational

The aim of this study is to assess in the sample of population resident in the KHUMBU valley (NEPAL): 1. the respiratory function decline by means of spirometry and the respiratory health by means of questionnaire and six-minute walking distance 2. the presence of markers of early atherosclerosis with ultrasound and to estimate the value of systolic pulmonary pressure in comparison with not exposed subjects. The investigators hypothesize that the chronic exposure to indoor pollution 1. can accelerate the physiological respiratory function decline, usually around 15-20mL/year in healthy subjects 2. induce cardiovascular impairment The population of high altitude villages is a unique sample to study the effect of the only indoor pollution. In fact, the absence of traffic, due to the lack of roads, and the very low level of smoking habits allow to have no other confounding factors 3. to study and analyze how the architectural features of the buildings of the village (distribution of domestic locals, natural or non natural ventilation systems, domestic activities, materials used, etc.) affect the indoor pollution from carbon monoxide, which necessarily is developed indoor during the daily life activities. What the project prospects is to gather information focused on the scale of the building, independently from the typology, to study a model that will help to describe which aspects are most important to what concern the genesis of the pollution of the indoor air.