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Literature DB >> 19747871

Modeling upper airway collapse by a finite element model with regional tissue properties.

Chun Xu¹, Michael J Brennick, Lawrence Dougherty, David M Wootton.

Abstract

This study presents a new computational system for modeling the upper airway in rats that combines tagged magnetic resonance imaging (MRI) with tissue material properties to predict three-dimensional (3D) airway motion. The model is capable of predicting airway wall and tissue deformation under airway pressure loading up to airway collapse. The model demonstrates that oropharynx collapse pressure depends primarily on ventral wall (tongue muscle) elastic modulus and airway architecture. An iterative approach that involves substituting alternative possible tissue elastic moduli was used to improve model precision. The proposed 3D model accounts for stress-strain relationships in the complex upper airway that should present new opportunities for understanding pathogenesis of airway collapse, improving diagnosis and developing treatments.

Entities: Chemical Disease Gene Species

Mesh：

Year: 2009 PMID： 19747871 PMCID： PMC2789979 DOI： 10.1016/j.medengphy.2009.08.006

Source DB: PubMed Journal: Med Eng Phys ISSN： 1350-4533 Impact factor: 2.242

20 in total

Review 1. Epidemiology of obstructive sleep apnea: a population health perspective.

Authors: Terry Young; Paul E Peppard; Daniel J Gottlieb
Journal: Am J Respir Crit Care Med Date: 2002-05-01 Impact factor: 21.405

2. The impact of anatomic manipulations on pharyngeal collapse: results from a computational model of the normal human upper airway.

Authors: Yaqi Huang; David P White; Atul Malhotra
Journal: Chest Date: 2005-09 Impact factor: 9.410

Modeling upper airway collapse by a finite element model with regional tissue properties.

Review 1. Epidemiology of obstructive sleep apnea: a population health perspective.

2. The impact of anatomic manipulations on pharyngeal collapse: results from a computational model of the normal human upper airway.

3. Image-based three-dimensional finite element modeling approach for upper airway mechanics.

4. Use of computational modeling to predict responses to upper airway surgery in obstructive sleep apnea.

5. Induction of upper airway occlusion in sleeping individuals with subatmospheric nasal pressure.

Review 6. Pathogenesis of obstructive sleep apnea.

7. The male predisposition to pharyngeal collapse: importance of airway length.

8. Estimation of the clinically diagnosed proportion of sleep apnea syndrome in middle-aged men and women.

9. Myocardial material property determination in the in vivo heart using magnetic resonance imaging.

10. Static mechanics of the velopharynx of patients with obstructive sleep apnea.

1. Upper Airway Elasticity Estimation in Pediatric Down Syndrome Sleep Apnea Patients Using Collapsible Tube Theory.

2. A Method for Accurate Reconstructions of the Upper Airway Using Magnetic Resonance Images.

3. Computational modeling of airway instability and collapse in tracheomalacia.

4. Three-dimensional finite element modeling for evaluation of laryngomalacia severity in infants and children.