Evaluating Laryngotracheal Stenosis in a Canine Model with Virtual Bronchoscopy

We performed a prospective masked animal study to determine whether virtual bronchoscopy, a noninvasive computed tomography technique, can accurately measure upper airway stenosis. Virtual bronchoscopy creates a 3-dimensional endoscopic image from spiral computed tomography data. Laryngotracheal ste...

Full description

Saved in:
Bibliographic Details
Published in:Annals of otology, rhinology & laryngology rhinology & laryngology, 2000-10, Vol.109 (10), p.906-912
Main Authors: Davros, William, Eliachar, Isaac, Eliashar, Ron, Gramlich, Terry, Esclamado, Ramon, Moffett, Kaven, Strome, Marshall
Format: Article
Language:English
Subjects:
Aged
Animals
Biological and medical sciences
Bronchoscopy
Disease Models, Animal
Dogs
Endoscopy
Humans
Image Processing, Computer-Assisted
Investigative techniques, diagnostic techniques (general aspects)
Laryngostenosis - diagnosis
Laryngostenosis - etiology
Larynx - pathology
Medical sciences
Non tumoral diseases
Otorhinolaryngology. Stomatology
Stents
Trachea - pathology
Tracheal Stenosis - diagnosis
Tracheal Stenosis - etiology
Upper respiratory tract, upper alimentary tract, paranasal sinuses, salivary glands: diseases, semeiology
User-Computer Interface
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:We performed a prospective masked animal study to determine whether virtual bronchoscopy, a noninvasive computed tomography technique, can accurately measure upper airway stenosis. Virtual bronchoscopy creates a 3-dimensional endoscopic image from spiral computed tomography data. Laryngotracheal stenosis was endoscopically induced in 18 dogs. The excised larynges were examined by endoscopy, virtual bronchoscopy, and macrodissection. Measurements were made of the anteroposterior (A-P) diameter, the left-right (L-R) diameter, the full length of stenosis in the sagittal plane, and the length of the tightest stenotic segment. Each measurement method was performed independently. All investigators were unaware of measurements made by others. The measurements obtained through virtual bronchoscopy and actual endoscopy were compared to those made at dissection by interclass correlation coefficients (ICCs). Endoscopy was better than virtual bronchoscopy in measuring the A-P diameter (ICC = .79, p< .0001; ICC = .42, p = .01). Both were equally effective in measuring the L-R diameter (ICC = .53, p = .0062; ICC = .52, p = .0064). The endoscopes could not assess the full length of the stenosis, whereas virtual bronchoscopy measured it fairly accurately (ICC = .72, p = .0001). Virtual bronchoscopy relatively accurately measured the length of the tightest stenotic segment (ICC = .68, p = .0002), whereas endoscopy produced measurements in only 11 of 18 larynges, and the measurements were less accurate (ICC = .45, p = .0068). Virtual bronchoscopy can provide good measurements of stenotic lesions in the airway. It is more accurate than actual endoscopy in determining the length of stenosis. It may therefore be useful as an adjunct imaging method in preoperative planning for reconstructive surgery.
ISSN:0003-4894
1943-572X
DOI:10.1177/000348940010901003