Department of Mechanical Engineering, Yong Loo Lin School of Medicine, National University of Singapore, Singapore.
Am J Rhinol Allergy. 2011 Nov-Dec;25(6):388-92. doi: 10.2500/ajra.2011.25.3669.
The aim of this study was to evaluate effects of functional endoscopic sinus surgery (FESS) on transient nasal aerodynamic flow patterns using computational fluid dynamics (CFD) simulations.
A three-dimensional model of the nasal cavity was constructed from CT scans of a patient with FESS interventions on the right side of the nasal cavity. CFD simulations were then performed for unsteady aerodynamic flow modeling inside the nasal cavity as well as the sinuses.
Comparisons of the local velocity magnitude and streamline distributions inside the left and right nasal cavity and maxillary sinus regions were presented. Because of the FESS procedures in the right nasal cavity, existences and distributions of local circulations (vortexes) were found to be significantly different for the same nasal airflow rate but at different acceleration, deceleration, or quiet phases in the maxillary sinus region on the FESS side. Because of inertia effects, local internal airflow with circulation existences was continuous throughout the whole respiration cycle. With a larger peak inspiration flow rate, the airflow intensity inside the enlarged maxillary sinus increased significantly. Possible outcomes on functional performances of the nose were also examined and discussed.
Surgical enlargements of natural ostium of the maxillary sinus will change the aerodynamic patterns inside the main nasal cavity and maxillary sinus regions, which may affect normal nasal physiological functions. Local inertia effects play more important roles for the internal nasal airflow pattern changes and thus such conventional FESS procedures should be carefully planned.
本研究旨在通过计算流体动力学(CFD)模拟评估功能性内窥镜鼻窦手术(FESS)对瞬态鼻气动流型的影响。
从右侧鼻腔 FESS 干预的患者 CT 扫描中构建了鼻腔的三维模型。然后,对鼻腔和鼻窦内的非定常气动流模型进行了 CFD 模拟。
比较了左、右侧鼻腔和上颌窦区域的局部速度大小和流线分布。由于右侧鼻腔 FESS 手术,在 FESS 侧上颌窦区域的同一鼻气流率但在不同的加速、减速或静止阶段,存在和分布的局部循环(涡流)明显不同。由于惯性效应,存在循环的局部内部气流在整个呼吸周期内连续。随着吸气峰流量的增加,扩大的上颌窦内的气流强度显著增加。还检查和讨论了对鼻子功能性能的可能影响。
上颌窦自然窦口的手术扩大将改变主要鼻腔和上颌窦区域的气动模式,这可能影响正常的鼻腔生理功能。局部惯性效应在内部鼻气流模式变化中起着更重要的作用,因此应谨慎规划此类传统的 FESS 手术。
