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Int J Numer Method Biomed Eng. 2010 Jan;26(1):73-85. doi: 10.1002/cnm.1235.
2
Treatment of intracranial aneurysms by functional reconstruction of the parent artery: the Budapest experience with the pipeline embolization device.载瘤动脉血流重建技术治疗颅内动脉瘤:Pipeline 栓塞装置在布达佩斯的应用经验。
AJNR Am J Neuroradiol. 2010 Jun;31(6):1139-47. doi: 10.3174/ajnr.A2023. Epub 2010 Feb 11.
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Curative endovascular reconstruction of cerebral aneurysms with the pipeline embolization device: the Buenos Aires experience.使用密网支架进行脑动脉瘤的根治性血管内重建:布宜诺斯艾利斯的经验。
Neurosurgery. 2009 Apr;64(4):632-42; discussion 642-3; quiz N6. doi: 10.1227/01.NEU.0000339109.98070.65.
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Flow-area relationship in internal carotid and vertebral arteries.颈内动脉和椎动脉的血流-面积关系。
Physiol Meas. 2008 May;29(5):585-94. doi: 10.1088/0967-3334/29/5/005. Epub 2008 May 7.
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A new endoluminal, flow-disrupting device for treatment of saccular aneurysms.一种用于治疗囊状动脉瘤的新型腔内血流阻断装置。
Stroke. 2007 Aug;38(8):2346-52. doi: 10.1161/STROKEAHA.106.479576. Epub 2007 Jul 5.
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Computational fluid dynamics modeling of intracranial aneurysms: qualitative comparison with cerebral angiography.颅内动脉瘤的计算流体动力学建模:与脑血管造影的定性比较。
Acad Radiol. 2007 Jul;14(7):804-13. doi: 10.1016/j.acra.2007.03.008.
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Intracranial aneurysm stenting: follow-up with MR angiography.颅内动脉瘤支架置入术:磁共振血管造影随访
J Magn Reson Imaging. 2006 Aug;24(2):418-22. doi: 10.1002/jmri.20642.
8
Endovascular treatment of intracranial aneurysms with parent vessel reconstruction using balloon and self expandable stents.使用球囊和自膨式支架进行载瘤血管重建的颅内动脉瘤血管内治疗。
Acta Neurochir (Wien). 2006 Jul;148(7):711-23; discussion 723. doi: 10.1007/s00701-006-0785-6. Epub 2006 May 17.
9
Efficient simulation of blood flow past complex endovascular devices using an adaptive embedding technique.使用自适应嵌入技术对流经复杂血管内装置的血流进行高效模拟。
IEEE Trans Med Imaging. 2005 Apr;24(4):468-76. doi: 10.1109/tmi.2005.844172.
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Efficient pipeline for image-based patient-specific analysis of cerebral aneurysm hemodynamics: technique and sensitivity.用于基于图像的脑动脉瘤血流动力学患者特异性分析的高效流程:技术与敏感性
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血流导向支架治疗后动脉瘤破裂:治疗的计算血流动力学分析。

Aneurysm rupture following treatment with flow-diverting stents: computational hemodynamics analysis of treatment.

机构信息

Center for Computational Fluid Dynamics, George Mason University, Fairfax, Virginia 22030, USA.

出版信息

AJNR Am J Neuroradiol. 2011 Jan;32(1):27-33. doi: 10.3174/ajnr.A2398. Epub 2010 Nov 11.

DOI:10.3174/ajnr.A2398
PMID:21071533
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7964947/
Abstract

BACKGROUND AND PURPOSE

Flow-diverting approaches to intracranial aneurysm treatment had many promising early results, but recent apparently successful treatments have been complicated by later aneurysm hemorrhage. We analyzed 7 cases of aneurysms treated with flow diversion to explore the possible rupture mechanisms.

MATERIALS AND METHODS

CFD analysis of pre- and posttreatment conditions was performed on 3 giant aneurysms that ruptured after treatment and 4 successfully treated aneurysms. Pre- and posttreatment hemodynamics were compared including WSS, relative blood flows, vascular resistances, and pressures, to identify the effects of flow-diverter placements.

RESULTS

Expected reductions in aneurysm velocity and WSS were obtained, indicating effective flow diversion from the sac into the parent artery, consistent with periprocedural observations. In each case with postaneurysm rupture, the result of flow diversion led to an increase in pressure within the aneurysm. This pressure increase is related to larger effective resistance in the parent artery from placement of the devices and, in 2 cases, the reduction of a preaneurysm stenosis.

CONCLUSIONS

Flow-diversion devices can cause intra-aneurysmal pressure increases, which can potentially lead to rupture, especially for giant aneurysms. This relates both to changes in the parent artery configuration, such as reduction of a proximal stenosis, and to the flow diversion into higher resistance parent artery pathways combined with cerebral autoregulation, leading to higher pressure gradients. These may be important effects that should be considered when planning interventions. Potentially dangerous cases could be identified with angiography and/or patient-specific CFD models.

摘要

背景与目的

血流导向装置治疗颅内动脉瘤的早期结果令人鼓舞,但最近看似成功的治疗却因后期动脉瘤出血而变得复杂。我们分析了 7 例采用血流分流治疗的动脉瘤病例,以探讨可能的破裂机制。

材料与方法

对 3 例治疗后破裂的巨大动脉瘤和 4 例成功治疗的动脉瘤进行了治疗前后的计算流体动力学(CFD)分析。比较了治疗前后的血流动力学,包括壁面剪切应力(WSS)、相对血流量、血管阻力和压力,以确定血流导向器放置的影响。

结果

预期的动脉瘤速度和 WSS 降低,表明从瘤腔到母动脉的有效血流分流,与围手术期观察结果一致。在每个动脉瘤破裂后的病例中,分流的结果导致动脉瘤内压力增加。这种压力增加与装置放置导致的母动脉有效阻力增加有关,在 2 例病例中,还与动脉瘤前狭窄的减轻有关。

结论

血流导向装置可引起瘤内压力升高,从而导致破裂,尤其是对于巨大动脉瘤。这与母动脉形态的变化有关,如近端狭窄的减轻,以及分流到更高阻力的母动脉途径与脑自动调节相结合,导致更高的压力梯度。这些可能是在规划干预措施时需要考虑的重要影响。通过血管造影和/或患者特定的 CFD 模型可以识别潜在危险的病例。