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- Title
Modeling Nasal Physiology Changes Due to Septal Perforations.
- Authors
Cannon, Daniel E.; Frank, Dennis O.; Kimbell, Julia S.; Poetker, David M.; Rhee, John S.
- Abstract
The article discusses a study conducted to investigate the impact of septal perforation on nasal physiology including airflow and velocity, wall shear stress, heat exchange and humidification by using Computational Fluid Dynamics (CFD) technology and digital nasal models. It is stated that the study found that larger perforations cause greater alteration in airflow allocation and exhibit greater alterations in wall shear and velocity at the site of the perforation.
- Subjects
NOSE physiology; ATRIAL septal defects; COMPUTATIONAL fluid dynamics; PUBLIC health research; MEDICAL technology
- Publication
Otolaryngology-Head & Neck Surgery, 2013, Vol 148, Issue 3, p513
- ISSN
0194-5998
- Publication type
Article
- DOI
10.1177/0194599812472881