We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Use of computational fluid dynamics to study the influence of the uncinate process on nasal airflow.
- Authors
Xiong, G-X; Zhan, J-M; Zuo, K-J; Rong, L-W; Li, J-F; Xu, G
- Abstract
Background:Chronic rhinosinusitis is commonly treated by functional endoscopic sinus surgery involving excision of the uncinate process and opening of the osteomeatal complex.Methods:Computational fluid dynamics were used to compare nasal airflow after two different surgical interventions which involved opening the paranasal sinuses, excising the ethmoid sinus, and excising or preserving the uncinate process, in a cadaveric head model. Cross-sectional computed tomography images were obtained before and after the interventions. Imaging data were used to prepare computer simulations, which were used to assess the airflow characteristics of the nasal cavities and paranasal sinuses during inspiration and expiration, before and after intervention.Results:Significantly larger nasal cavity airflow velocity changes were apparent following the uncinate process excising procedure. Nasal cavity airflow distribution remained relatively unchanged following the uncinate process preserving procedure. There was a significantly greater increase in airflow volume following the uncinate process excising procedure, compared with the uncinate process preserving procedure.Conclusion:Preservation of the uncinate process may significantly reduce the alteration of nasal cavity airflow dynamics occurring after functional endoscopic sinus surgery for chronic rhinosinusitis.
- Subjects
SINUSITIS; PARANASAL sinus surgery; SINUSITIS treatment; DEAD; ENDOSCOPY; NASAL cavity; PARANASAL sinuses; RESEARCH funding; RESPIRATION; TOMOGRAPHY; DIAGNOSIS
- Publication
Journal of Laryngology & Otology, 2011, Vol 125, Issue 1, p30
- ISSN
0022-2151
- Publication type
Article
- DOI
10.1017/S002221511000191X