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Literature DB >> 17437682

The way the wind blows: implications of modeling nasal airflow.

Abstract

Nasal airflow is important for the many physiological functions of the nose, which include the warming and humidifying of inspired air; the filtration of airborne pollutants; and the sense of smell and nasal pungency. Until recently, airflow properties in the nose could only be understood using qualitative in vitro models of humans or in vivo studies in rodents. Recent advances in constructing three-dimensional geometric models of human nasal passages from CT scans, coupled with computational fluid dynamic modeling, has been a valuable tool for quantifying airflow and transport of gases, heat, particles, and aerosols in the human nose. Additionally, these techniques hold significant promise for evaluating and predicting the impact and successful remediation of a variety of clinical conditions on olfaction and nasal patency and setting guidelines for safe levels of exposure to inhaled materials.

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Year: 2007 PMID： 17437682 DOI： 10.1007/s11882-007-0009-z

Source DB: PubMed Journal: Curr Allergy Asthma Rep ISSN： 1529-7322 Impact factor: 4.806

50 in total

1. A numerical simulation of intranasal air temperature during inspiration.

Authors: Joerg Lindemann; Tilman Keck; Kerstin Wiesmiller; Bjoern Sander; Hans-Juergen Brambs; Gerhard Rettinger; Daniela Pless
Journal: Laryngoscope Date: 2004-06 Impact factor: 3.325

2. Experimental and numerical determination of odorant solubility in nasal and olfactory mucosa.

Authors: Daniel B Kurtz; Kai Zhao; David E Hornung; Peter Scherer
Journal: Chem Senses Date: 2004-11 Impact factor: 3.160

3. The air-conditioning capacity of the human nose.

Authors: Sara Naftali; Moshe Rosenfeld; Michael Wolf; David Elad
Journal: Ann Biomed Eng Date: 2005-04 Impact factor: 3.934

4. Numerical modeling of nasal obstruction and endoscopic surgical intervention: outcome to airflow and olfaction.

Authors: Kai Zhao; Edmund A Pribitkin; Beverly J Cowart; David Rosen; Peter W Scherer; Pamela Dalton
Journal: Am J Rhinol Date: 2006 May-Jun

5. Airflow patterns in a human nasal model.

Authors: D E Hornung; D A Leopold; S L Youngentob; P R Sheehe; G M Gagne; F D Thomas; M M Mozell
Journal: Arch Otolaryngol Head Neck Surg Date: 1987-02

6. Velocity profiles measured for airflow through a large-scale model of the human nasal cavity.

Authors: I Hahn; P W Scherer; M M Mozell
Journal: J Appl Physiol (1985) Date: 1993-11

7. Objective and subjective nasal airflow.

Authors: E Yaniv; T Hadar; J Shvero; E Raveh
Journal: Am J Otolaryngol Date: 1997 Jan-Feb Impact factor: 1.808

8. Evidence for correlation of objective and subjective measures of nasal airflow in patients with common cold.

Authors: J D Clarke; M L Hopkins; R Eccles
Journal: Clin Otolaryngol Date: 2005-02 Impact factor: 2.597

9. Effect of anatomy on human nasal air flow and odorant transport patterns: implications for olfaction.

Authors: Kai Zhao; Peter W Scherer; Shoreh A Hajiloo; Pamela Dalton
Journal: Chem Senses Date: 2004-06 Impact factor: 3.160

10. Application of computational fluid dynamics to regional dosimetry of inhaled chemicals in the upper respiratory tract of the rat.

Authors: J S Kimbell; E A Gross; D R Joyner; M N Godo; K T Morgan
Journal: Toxicol Appl Pharmacol Date: 1993-08 Impact factor: 4.219

14 in total

Review 1. Review of computational fluid dynamics in the assessment of nasal air flow and analysis of its limitations.

Authors: Maurizio Quadrio; Carlotta Pipolo; Stefano Corti; Riccardo Lenzi; Francesco Messina; Chiara Pesci; Giovanni Felisati
Journal: Eur Arch Otorhinolaryngol Date: 2013-10-08 Impact factor: 2.503

Review 2. Neural computations with mammalian infochemicals.

Authors: A Gelperin
Journal: J Chem Ecol Date: 2008-06-14 Impact factor: 2.626

3. Sinus irrigations before and after surgery-Visualization through computational fluid dynamics simulations.

Authors: Kai Zhao; John R Craig; Noam A Cohen; Nithin D Adappa; Sammy Khalili; James N Palmer
Journal: Laryngoscope Date: 2015-10-15 Impact factor: 3.325

4. Comparing thoracic and intra-nasal pressure transients to monitor active odor sampling during odor-guided decision making in the mouse.

Authors: Johannes Reisert; Glen J Golden; Koichi Matsumura; Matt Smear; Dmitry Rinberg; Alan Gelperin
Journal: J Neurosci Methods Date: 2013-09-19 Impact factor: 2.390

10. Sinonasal risk factors for the development of invasive fungal sinusitis in hematological patients: Are they important?

Authors: Ignacio J Fernandez; Marta Stanzani; Giulia Tolomelli; Ernesto Pasquini; Nicola Vianelli; Michele Baccarani; Vittorio Sciarretta
Journal: Allergy Rhinol (Providence) Date: 2011-01