利用双层多孔介质模拟计算流体动力学来评价FRED治疗脑动脉瘤的血流动力学:技术说明

IF 1.3 Q4 CLINICAL NEUROLOGY Brain Hemorrhages Pub Date : 2023-03-01 DOI:10.1016/j.hest.2022.05.007
Masanori Tsuji , Fujimaro Ishida , Takenori Sato , Kazuhiro Furukawa , Yoichi Miura , Ryuta Yasuda , Yasuyuki Umeda , Naoki Toma , Hidenori Suzuki
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引用次数: 2

摘要

分流器(FD)植入术越来越多地用于传统血管内治疗和直接手术难以治疗的动脉瘤。现在,一种新的FD支架,流动重定向腔内装置(FRED),进入临床实践,有望具有更高的治疗效果。为了预测动脉瘤是否被FRED完全闭塞,我们开发了一种新的计算流体动力学(CFD)技术,该技术使用双层多孔介质建模来模拟其特征支架支柱。该技术可能有助于使用术前患者特异性动脉瘤几何形状来评估FRED植入后动脉瘤的血液动力学变化。作者描述了具有双层多孔介质的新型CFD技术,并以未破裂的颈内动脉前壁动脉瘤为例,报告了该技术在术前预测FRED植入后动脉瘤闭塞状态方面的潜在实用性。
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Computational fluid dynamics using dual-layer porous media modeling to evaluate the hemodynamics of cerebral aneurysm treated with FRED: A technical note

Flow diverter (FD) implantation is increasingly performed for aneurysms that are difficult to treat with conventional endovascular therapy and direct surgery. Now, a new FD stent, the Flow-Redirection Endoluminal Device (FRED), enters into clinical practice and is expected to have higher therapeutic efficacy. To predict whether an aneurysm is completely occluded by FRED, we have developed a novel computational fluid dynamics (CFD) technique using dual-layer porous media modeling that simulates its characteristic stent strut. This technique may be useful to evaluate hemodynamic changes in an aneurysm after FRED implantation using the preoperative patient-specific aneurysm geometry. The authors describe the novel CFD technique with a dual-layer porous media and report the potential usefulness of the technique to predict the aneurysm-occlusion status after FRED implantation preoperatively using an illustrative case of an unruptured internal carotid artery anterior wall aneurysm.

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来源期刊
Brain Hemorrhages
Brain Hemorrhages Medicine-Surgery
CiteScore
2.90
自引率
0.00%
发文量
52
审稿时长
22 days
期刊最新文献
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