Published in:
01-08-2021 | Tinnitus | Head and Neck
Computational fluid dynamics study of the effect of transverse sinus stenosis on the blood flow pattern in the ipsilateral superior curve of the sigmoid sinus
Authors:
Yanjing Han, Jun Xia, Long Jin, Aike Qiao, Tianhao Su, ZhenFeng Li, Jianping Xiong, Haochen Wang, Zhiyuan Zhang
Published in:
European Radiology
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Issue 8/2021
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Abstract
Objective
To investigate the effect of different types of transverse sinus stenosis on blood flow patterns in the ipsilateral superior curve of the sigmoid sinus.
Methods
According to the morphology of transverse and sigmoid sinus sections in pulsatile tinnitus patients, ten idealized models with different degrees and positions of transverse sinus stenosis were constructed. Computational fluid dynamics simulations were performed to compare the hemodynamic characteristics among these models. Follow-up images of previous cases were included, which preliminarily confirmed the hypothesis that bone plate erosion of the sigmoid sinus sulcus is related to blood flow impingement.
Results
Blood flow impingement on the superior curve of the sigmoid sinus wall intensified with increasing degree of stenosis and decreased with increasing distance between the stenosis and the sigmoid sinus. The impact zone was generally confined to the anterior and lateral walls of the superior curve of the sigmoid sinus. When the stenosis was located far from the middle of the transverse sinus, the blood flow impingement on the sigmoid sinus wall was very weak.
Conclusions
When stenosis is located far from the sigmoid sinus, the causes of tinnitus should be comprehensively considered instead of assuming that stenosis is the main cause. Bone plate erosion of the sigmoid sinus sulcus was promoted by blood flow impingement.
Key Points
• Ten idealized models with different degrees and positions of stenosis were constructed.
• The causes of pulsatile tinnitus should be comprehensively considered.
• Sigmoid sinus plate dehiscence was promoted by blood flow impingement.