鼻阻塞与内镜手术干预的数值模拟：对气流和嗅觉的影响

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

作者信息

Zhao Kai, Pribitkin Edmund A, Cowart Beverly J, Rosen David, Scherer Peter W, Dalton Pamela

机构信息

Monell Chemical Senses Center, 3500 Market Street, Philadelphia, Pennsylvania, USA.

出版信息

Am J Rhinol. 2006 May-Jun;20(3):308-16. doi: 10.2500/ajr.2006.20.2848.

DOI:10.2500/ajr.2006.20.2848

PMID:16871935

Abstract

BACKGROUND

Mechanical obstruction of odorant flow to the olfactory neuroepithelium may be a primary cause of olfactory loss in nasal-sinus disease patients. Surgical removal of nasal obstruction may facilitate the recovery of olfactory ability. Unfortunately, quantifying the functional impact of nasal obstruction and subsequent surgical outcomes using acoustic rhinometry, rhinomanometry, or CT scans is inadequate.

METHODS

Using computational fluid dynamics (CFD) techniques, we can convert patient CT scans into anatomically accurate 3D numerical nasal models that can be used to predict nasal airflow and odorant delivery rates. These models also can be rapidly modified to reflect anatomic changes, e.g., surgical removal of polyps.

RESULTS

CFD modeling of one patient's nose pre- and postsurgery showed significant improvement in postsurgical ortho- and retronasal airflow and odorant delivery rate to olfactory neuroepithelium (> 1000 times), which correlated well with olfactory recovery.

CONCLUSION

This study has introduced a novel technique (CFD) to calculate nasal airflow dynamics and its effects on olfaction, nasal obstruction, and sinus disease. In the future, such techniques may provide a quantitative evaluation of surgical outcome and an important preoperative guide to optimize nasal airflow and odorant delivery.

摘要

背景

气味物质流向嗅神经上皮的机械性阻塞可能是鼻窦疾病患者嗅觉丧失的主要原因。手术解除鼻腔阻塞可能有助于嗅觉能力的恢复。不幸的是，使用鼻声反射仪、鼻阻力计或CT扫描来量化鼻腔阻塞的功能影响以及后续手术结果并不充分。

方法

使用计算流体动力学（CFD）技术，我们可以将患者的CT扫描转换为解剖结构精确的三维数值鼻腔模型，用于预测鼻腔气流和气味物质输送率。这些模型还可以快速修改以反映解剖学变化，例如手术切除息肉。

结果

对一名患者手术前后鼻腔的CFD建模显示，术后正向和鼻后向气流以及气味物质向嗅神经上皮的输送率有显著改善（超过1000倍），这与嗅觉恢复密切相关。

结论

本研究引入了一种新技术（CFD）来计算鼻腔气流动力学及其对嗅觉、鼻腔阻塞和鼻窦疾病的影响。未来，此类技术可能会提供手术结果的定量评估，并成为优化鼻腔气流和气味物质输送的重要术前指导。

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鼻阻塞与内镜手术干预的数值模拟：对气流和嗅觉的影响

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

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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