View clinical trials related to Tracheal Stenosis.
Filter by:The investigators previously demonstrated that voice changes are common in patients with Laryngotracheal Stenosis (LTS), and patients typically report an improvement in voice outcomes following endoscopic dilation. Recently, NIH based programs such as a Bridge to Artificial Intelligence (Bridge2AI) have highlighted the use of artificial intelligence to identify acoustic biomarkers of disease. Therefore, the investigators hypothesize that progression of LTS scar can be quantified using acoustic measurements and machine learning. The goal of this clinical trial is to remotely monitor patient voice quality in an effort to determine if regularly performed voice recordings can be used as a diagnostic tool in order to predict the need for dilation procedures. The investigators feel that successful use of remote voice recording technology with algorithmic analysis will improve patient quality of life.
Rigid bronchoscopy usually requires deep general anesthesia, but the duration of the procedure is relatively short. Remimazolam, a recently developed anesthetics, showed faster recovery from anesthesia and stable hemodynamics compared to propofol, the most popular anesthetics. However, few studies have investigated the usefulness of remimazolam for rigid bronchoscopy. Therefore, the investigators compared the usefulness of propofol and remimazolam in total intravenous anesthesia for rigid bronchoscopy.
1. To estimate the importance of bronchoscopic treatment of tracheal stenosis and its effectiveness and safety. 2. To diagnose and evaluate tracheal stenosis characteristics as location, vertical extension and severity of obstruction.
The purpose of the study is to prospectively assess the use of a modified tracheal balloon dilator in children (<13 years old) with subglottic or tracheal stenosis. The hypothesis is that the device will effectively dilate the stenotic segment, whilst maintaining oxygenation (if applicable). The primary aim is to measure the stenosis prior to, and after dilatation; using diameter and the modified Myer-Cotton grading system. Secondary aims include assessment of stenosis at six-week follow-up and monitoring arterial oxygenation nadir (using peripheral plethysmography) during the procedure.