Numerical Model of a Nasal Septal Perforation

Studies in Health Technology and Informatics

Volumn 107, Issue , 2004, Pages 1352-1356

  Grant, Orla ^a   Bailie, Neil ^a,b   Watterson, John ^a   Cole, Jonathan ^a   Gallagher, Geraldine ^b   Hanna, Brendan ^b  

^a QUEEN'S UNIVERSITY BELFAST   (United Kingdom)

^b ANTRIM AREA HOSPITAL   (United Kingdom)

Author keywords

Bio Fluid Mechanics; Computational Fluid Dynamics; Human Nasal Airflow; Nasal Septal Perforation; Particle Image Velocimetry; Upper Respiratory Tract

Indexed keywords

AIR; COMPUTATIONAL FLUID DYNAMICS; NUMERICAL MODELS; SHEAR STRESS; VELOCITY MEASUREMENT;

BIO-FLUID MECHANICS; CT-SCAN; HUMAN NASAL AIRFLOW; IMAGE MANIPULATION; IMAGE VELOCIMETRY; NASAL AIRFLOWS; NASAL SEPTAL PERFORATION; PARTICLE IMAGE VELOCIMETRY; PARTICLE IMAGES; UPPER RESPIRATORY TRACT;

COMPUTERIZED TOMOGRAPHY;

ARTICLE; BIOMECHANICS; BREATHING MECHANICS; COMPUTER PROGRAM; FLOW KINETICS; HUMAN; IMAGE PROCESSING; NOSE DISEASE; NOSE SEPTUM; PATHOLOGY; PATHOPHYSIOLOGY; THREE DIMENSIONAL IMAGING;

BIOMECHANICS; HUMANS; IMAGE PROCESSING, COMPUTER-ASSISTED; IMAGING, THREE-DIMENSIONAL; NASAL SEPTUM; NOSE DISEASES; RESPIRATORY MECHANICS; RHEOLOGY; SOFTWARE;

EID: 21644450275     PISSN: 09269630     EISSN: 18798365     Source Type: Book Series    
DOI: None     Document Type: Conference Paper

References (7)

1. Bailie N, Grant O, Watterson J, Gallagher G, and Cole J. A practical method for constructing accurate computational grids of the nasal passages from CT scans using commercially available software. Computer Methods and Programs in Biomedicine 2003: Abstract Submitted
2. Watterson J, Computational Fluid Dynamics 3 105AER306, Queen's University Belfast, 2001
3. Martonen T.B. Medical Applications of Computer Modeling: the Respiratory System (Advances in Computational Bioengineering). WIT Press/Computational Mechanics, 2001.
4. Muller-Wittig W, Mlynski G, Weinhold I, Bockholt U, Voss G. Nasal Airflow Diagnosis - Comparison of experimental Studies and Computer simulations. Medicine Meets Virtual Reality 2002: Issue 85: 311-317
5. Subramaniam R.P., Richardson R.B., Morgan K.T. and Kimbell J.S. Computational Fluid Dynamics Simulations of Inspiratory Airflow in the Human Nose and Nasopharynx. Inhalation Toxicology 1998: 10: 473-502
6. Keyhani K., Scherer P.W., Mozell M.M. A Numerical Model of Odorant Transport for the Analysis of Human Olfaction. Journal of theoretical Biology 1997: 186: 279-301
7. Van Reimersdahl Th, Horschler I, Gerndt A, Kuhlen T, Meinke M, Schlondorff G, Schroder W and Bischof C.H.. Airflow Simulation inside a Model of the Human Nasal Cavity in a Virtual Reality Based Rhinological Operation Planning System. Computer Assisted Radiology and Surgery (CARS) 2001 Proceedings