Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

Keynote webinar | Spotlight on medication adherence

LIVE: Thursday 27th June 2024, 18:00-19:30 (CEST)
Join our expert panel to discover why you need to understand the drivers of non-adherence in your patients, and how you can optimize medication adherence in your clinics to drastically improve patient outcomes.
ADVANCED SEARCH
Log in
Top
European Radiology
Published in: European Radiology 8/2021

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 | Issue 8/2021

Login to get access

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.
Literature
1.
Madani G, Connor SEJ (2009) Imaging in pulsatile tinnitus. Clin Radiol 64:319–328CrossRef
2.
Harvey RS, Hertzano R, Kelman SE, Eisenman DJ (2014) Pulse-synchronous tinnitus and sigmoid sinus wall anomalies: descriptive epidemiology and the idiopathic intracranial hypertension patient population. Otol Neurotol 35:7–15CrossRef
3.
Mattox DE, Hudgins P (2008) Algorithm for evaluation of pulsatile tinnitus. Acta Otolaryngol 128:427–431CrossRef
4.
Baomin L, Yongbing S, Xiangyu C (2014) Angioplasty and stenting for intractable pulsatile tinnitus caused by dural venous sinus stenosis: a case series report. Otol Neurotol 35:366–370CrossRef
5.
Tian S, Wang L, Yang J, Mao R, Liu Z, Fan Y (2017) Sigmoid sinus cortical plate dehiscence induces pulsatile tinnitus through amplifying sigmoid sinus venous sound. J Biomech 52:68–73CrossRef
6.
Dong C, Zhao PF, Yang JG, Liu ZH, Wang ZC (2015) Incidence of vascular anomalies and variants associated with unilateral venous pulsatile tinnitus in 242 patients based on dual-phase contrast-enhanced computed tomography. Chin Med J (Engl) 128:581–585CrossRef
7.
Han Y, Yang Q, Yang Z et al (2017) Computational fluid dynamics simulation of hemodynamic alterations in sigmoid sinus diverticulum and Ipsilateral upstream sinus stenosis after stent implantation in patients with pulsatile tinnitus. World Neurosurg 106:308–314CrossRef
8.
Amans MR, Haraldsson H, Kao E et al (2018) MR venous flow in sigmoid sinus diverticulum. AJNR Am J Neuroradiol 39:2108–2113CrossRef
9.
Dong C, Zhao P, Liu Z et al (2016) Association between the extent of sigmoid sinus dehiscence and an occurrence of pulsatile tinnitus: a retrospective imaging study. Clin Radiol 71:883–888CrossRef
10.
Mehanna R, Shaltoni H, Morsi H, Mawad M (2010) Endovascular treatment of sigmoid sinus aneurysm presenting as devastating pulsatile tinnitus. A case report and review of literature. Interv Neuroradiol 16:451–454CrossRef
11.
Durst CR, Ornan DA, Reardon MA et al (2016) Prevalence of dural venous sinus stenosis and hypoplasia in a generalized population. J Neurointerv Surg 8:1173–1177CrossRef
12.
Zhao P, Lv H, Dong C, Niu Y, Xian J, Wang Z (2016) CT evaluation of sigmoid plate dehiscence causing pulsatile tinnitus. Eur Radiol 26:9–14CrossRef
13.
Prakash S, Ethier CR (2001) Requirements for mesh resolution in 3D computational hemodynamics. J Biomech Eng 123:134–144CrossRef
14.
Glor FP, Long Q, Hughes AD et al (2003) Reproducibility study of magnetic resonance image-based computational fluid dynamics prediction of carotid bifurcation flow. Ann Biomed Eng 31:142–151CrossRef
15.
Mehta NR, Jones L, Kraut MA, Melhem ER (2000) Physiologic variations in dural venous sinus flow on phase-contrast MR imaging. AJR Am J Roentgenol 175:221CrossRef
16.
Lenck S, Labeyrie MA, Vallee F et al (2017) Stent placement for disabling pulsatile tinnitus caused by a lateral sinus stenosis: a retrospective study. Oper Neurosurg (Hagerstown) 13:560–565CrossRef
17.
Hsieh Y, Wang W (2020) Extraluminal sigmoid sinus angioplasty. Otol Neurotol 41:e132–e145CrossRef
18.
Eisenman DJ, Raghavan P, Hertzano R, Morales R (2018) Evaluation and treatment of pulsatile tinnitus associated with sigmoid sinus wall anomalies. Laryngoscope 128:S1–S13CrossRef
19.
Krishnan A, Mattox DE, Fountain AJ, Hudgins PA (2006) CT arteriography and venography in pulsatile tinnitus: preliminary results. AJNR Am J Neuroradiol 27:1635–1638PubMedPubMedCentral
20.
Signorelli F, Mahla K, Turjman F (2012) Endovascular treatment of two concomitant causes of pulsatile tinnitus: sigmoid sinus stenosis and ipsilateral jugular bulb diverticulum. Case report and literature review. Acta Neurochir (Wien) 154:89–92CrossRef
21.
Meng H, Tutino VM, Xiang J, Siddiqui A (2014) High WSS or low WSS? Complex interactions of hemodynamics with intracranial aneurysm initiation, growth, and rupture: toward a unifying hypothesis. AJNR Am J Neuroradiol 35:1254–1262CrossRef
22.
Alfano JM, Kolega J, Natarajan SK et al (2013) Intracranial aneurysms occur more frequently at bifurcation sites that typically experience higher hemodynamic stresses. Neurosurgery 73:497–505CrossRef
23.
Shojima M, Oshima M, Takagi K et al (2004) Magnitude and role of wall shear stress on cerebral aneurysm: computational fluid dynamic study of 20 middle cerebral artery aneurysms. Stroke 35:2500–2505CrossRef
24.
Eisenman DJ (2011) Sinus wall reconstruction for sigmoid sinus diverticulum and dehiscence: a standardized surgical procedure for a range of radiographic findings. Otol Neurotol 32:1116–1119CrossRef
25.
Sforza DM, Lohner R, Putman C, Cebral J (2010) Hemodynamic analysis of intracranial aneurysms with moving parent arteries: basilar tip aneurysms. Int J Numer Method Biomed Eng 26:1219–1227CrossRef
Metadata
Title
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
Publication date
01-08-2021
Publisher
Springer Berlin Heidelberg
Published in
European Radiology / Issue 8/2021
Print ISSN: 0938-7994
Electronic ISSN: 1432-1084
DOI
https://doi.org/10.1007/s00330-020-07630-x

Other articles of this Issue 8/2021

European Radiology 8/2021 Go to the issue

Neuro

Quantitative susceptibility-weighted imaging may be an accurate method for determining stroke hypoperfusion and hypoxia of penumbra

Imaging Informatics and Artificial Intelligence

Artificial Intelligence–assisted chest X-ray assessment scheme for COVID-19

Musculoskeletal

Dynamic contrast-enhanced MRI of synovitis in knee osteoarthritis: repeatability, discrimination and sensitivity to change in a prospective experimental study

Imaging Informatics and Artificial Intelligence

Training opportunities of artificial intelligence (AI) in radiology: a systematic review

Magnetic Resonance

Consensus report from the 9th International Forum for Liver Magnetic Resonance Imaging: applications of gadoxetic acid-enhanced imaging

Correction

Correction to: Incorporating radiomics into clinical trials: expert consensus endorsed by the European Society of Radiology on considerations for data-driven compared to biologically driven quantitative biomarkers