View clinical trials related to Central Airway Stenosis.
Filter by:The objective of this study is to evaluate the effect of hyperbaric oxygen therapy (HBOT) on airway complications in post-lung transplant recipients with evidence of restricted levels of blood and oxygen in the airway tissue. Study subjects with extensive airway tissue damage in the early post-transplant period will be randomized to HBOT or usual care and followed clinically for 12 months following randomization. The investigators hypothesize that HBOT will decrease the number of airway complications in the treated subjects.
Vibration response imaging (VRI) technology, provides a radiation-free dynamic image of the lung, by visualizing vibration energy emitted during the respiration cycle (lung sounds). Airflow in the lungs during the respiration cycle creates vibrations that propagate through the lung tissue; these vibrations are affected by the structural properties of the lungs and may vary in space, time and frequency. Moreover, any structural alteration, such as a bronchial obstruction or space occupying infiltration, is reflected in a corresponding modification of the vibration response. As obstructions that occur in airways alter airflow, the VRI may provide additional lung function information prior to treatment for airway obstruction and during follow-up. Moreover, the VRI may provide the physician immediate evaluation of the improvement of air flow distribution, quantitative and qualitative measurements. Furthermore, the VRI is a non-invasive, radiation free procedure which is simple and doesn't require the level of patient effort required for lung function test and other evaluation.