Tracheal Stenosis (tracheal + stenosis)

Distribution by Scientific Domains


Selected Abstracts


A Modified Rabbit Model for the Endoscopic Creation and Study of Benign Tracheal Stenosis

THE LARYNGOSCOPE, Issue S1 2009
Bryan C. Ego-Osuala MD
No abstract is available for this article. [source]


Management of congenital tracheal stenosis , using spontaneous ventilation to facilitate cardiopulmonary bypass

PEDIATRIC ANESTHESIA, Issue 4 2006
KATHERINE TAYLOR FANZCA
Summary We present an unusual case of an infant with life-threatening tracheal stenosis scheduled for repair utilizing cardiopulmonary bypass. After repeated attempts at intubation endtidal CO2 was absent. The child was eventually managed with spontaneous breathing sevoflurane via a facemask. The possible causes of absent endtidal CO2 after intubation are discussed. [source]


Perioperative care of a patient with Beare,Stevenson syndrome

PEDIATRIC ANESTHESIA, Issue 12 2005
SARA UPMEYER DO
Summary Beare,Stevenson syndrome is a craniofacial syndrome consisting of a specific pattern of craniosynostosis resulting in a cloverleaf skull deformity and hydrocephalus, down-slanting palpebral fissures, proptosis, hypertelorism, strabismus, dysmorphic ears, choanal atresia, cleft palate, cutis gyratum, acanthosis nigricans, and abnormal genitalia. Its primary cause has been identified as a single amino acid substitution in fibroblast growth factor receptor 2. Of primary importance to the anesthesiologist are issues related to airway management resulting from midface hypoplasia, choanal atresia, and airway abnormalities (tracheal stenosis). Additional issues affecting airway management include associated cervical spine and foramen magnum abnormalities. The authors present their experience caring for a patient with Beare,Stevenson syndrome and discuss the anesthesia care of these patients. [source]


Diagnosis of vocal cord dysfunction in asthma with high resolution dynamic volume computerized tomography of the larynx

RESPIROLOGY, Issue 8 2009
Peter W. HOLMES
ABSTRACT Background and objective: Vocal cord dysfunction (VCD) often masquerades as asthma and reports have suggested that up to 30% of patients with asthma may have coexistent VCD. Diagnosis of VCD is difficult, in part because it involves laryngoscopy which has practical constraints, and there is need for rapid non-invasive diagnosis. High speed 320-slice volume CT demonstrates laryngeal function during inspiration and expiration and may be useful in suspected VCD. Methods: Endoscopy and high resolution 320-slice dynamic volume CT were used to examine and compare laryngeal anatomy and movement in a case of subglottic stenosis and in a patient with confirmed VCD. Nine asthmatics with ongoing symptoms and suspected VCD also underwent 320-slice dynamic volume CT. Tracheal and laryngeal anatomy and movement were evaluated and luminal areas were measured. Reductions in vocal cord luminal area >40%, lasting for >70% duration of inspiration/expiration, were judged to be consistent with VCD. Results: Studies of subglottic tracheal stenosis validated anatomical similarities between endoscopy and CT images. Endoscopy and 320-slice volume CT also provided comparable dynamic images in a patient with confirmed VCD. A further nine patients with a history of severe asthma and suspected VCD were studied using CT. Four patients had evidence of VCD and the median reduction of luminal area during expiration was 78.2% (range 48.2,92.5%) compared with 10.4% (range 4.7,30%) in the five patients without VCD. Patients with VCD had no distinguishing clinical characteristics. Conclusions: Dynamic volume CT provided explicit images of the larynx, distinguished function of the vocal cords during the respiratory cycle and could identify putative VCD. The technique will potentially provide a simple, non-invasive investigation to identify laryngeal dysfunction, permitting improved management of asthma. [source]


Endobronchial argon plasma coagulation for the management of post-intubation tracheal stenosis

RESPIROLOGY, Issue 5 2006
Masanori YASUO
Abstract: Post-intubation tracheal stenosis is usually caused by pressure necrosis at the cuff. Despite the fact that this phenomenon is well known and both large volume and low pressure cuffs have been developed, this lesion nevertheless continues to occur. Although the best results for tracheal reconstruction are obtained by an experienced surgeon, not all patients are able to undergo this operation for either medical or personal reasons. Argon plasma coagulation (APC) using flexible bronchoscopy has been successfully employed in the treatment of post-intubation tracheal stenosis in two of the surgery-refused and inoperable patients. The patients immediately experienced a relief of symptoms after APC. APC was thus performed 3,4 times every 1,2 weeks for each patient. In addition, there were no complications related to this procedure. The number of published clinical reports describing APC in benign airway stenosis are increasing. APC has also been reported to have several advantages over other interventional endobronchial techniques in the management of tracheo-bronchial stenosis. We report two patients, and to our knowledge this is the first description of APC being used in the treatment of endobronchial dilatation for post-intubation tracheal stenosis. [source]