鼻中隔穿孔修复手术对三维气流的影响：使用计算流体动力学进行的评估

Effects of nasal septum perforation repair surgery on three-dimensional airflow: an evaluation using computational fluid dynamics.

作者信息

Nomura Tsutomu, Ushio Munetaka, Kondo Kenji, Yamasoba Tatsuya

机构信息

Department of Otolaryngology and Head and Neck Surgery, Graduate School of Medicine, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo, Japan.

出版信息

Eur Arch Otorhinolaryngol. 2015 Nov;272(11):3327-33. doi: 10.1007/s00405-014-3438-z. Epub 2014 Dec 13.

DOI:10.1007/s00405-014-3438-z

PMID:25503100

Abstract

The purpose of this research is to determine the cause of nasal perforation symptoms and to predict post-operative function after nasal perforation repair surgery. A realistic three-dimensional (3D) model of the nose with a septal perforation was reconstructed using a computed tomography (CT) scan from a patient with nasal septal defect. The numerical simulation was carried out using ANSYS CFX V13.0. Pre- and post-operative models were compared by their velocity, pressure gradient (PG), wall shear (WS), shear strain rate (SSR) and turbulence kinetic energy in three plains. In the post-operative state, the crossflows had disappeared, and stream lines bound to the olfactory cleft area had appeared. After surgery, almost all of high-shear stress areas were disappeared comparing pre-operative model. In conclusion, the effects of surgery to correct nasal septal perforation were evaluated using a three-dimensional airflow evaluation. Following the surgery, crossflows disappeared, and WS, PG and SSR rate were decreased. A high WS.PG and SSR were suspected as causes of nasal perforation symptoms.

摘要

本研究的目的是确定鼻中隔穿孔症状的病因，并预测鼻中隔穿孔修复手术后的术后功能。使用来自一名鼻中隔缺损患者的计算机断层扫描（CT）重建了一个带有鼻中隔穿孔的逼真的三维（3D）鼻模型。使用ANSYS CFX V13.0进行了数值模拟。通过比较术前和术后模型在三个平面上的速度、压力梯度（PG）、壁面切应力（WS）、切应变率（SSR）和湍动能。在术后状态下，交叉流消失，并且出现了与嗅裂区域相关的流线。与术前模型相比，术后几乎所有高切应力区域都消失了。总之，使用三维气流评估来评估手术矫正鼻中隔穿孔的效果。手术后，交叉流消失，WS、PG和SSR率降低。高WS、PG和SSR被怀疑是鼻中隔穿孔症状的病因。

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鼻中隔穿孔修复手术对三维气流的影响：使用计算流体动力学进行的评估

Effects of nasal septum perforation repair surgery on three-dimensional airflow: an evaluation using computational fluid dynamics.

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