面向由螺旋状金属丝制成的血流导向装置的个性化设计：一项优化研究。

Towards the patient-specific design of flow diverters made from helix-like wires: an optimization study.

作者信息

Zhang Mingzi, Anzai Hitomi, Chopard Bastien, Ohta Makoto

机构信息

Graduate School of Engineering, Tohoku University, Katahira 2-1-1, Aoba, Sendai, Miyagi, 9808577, Japan.

Frontier Research Institute for Interdisciplinary Science, Tohoku University, Katahira 2-1-1, Aoba, Sendai, Miyagi, 9808577, Japan.

出版信息

Biomed Eng Online. 2016 Dec 28;15(Suppl 2):159. doi: 10.1186/s12938-016-0257-z.

DOI:10.1186/s12938-016-0257-z

PMID:28155683

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5260143/

Abstract

BACKGROUND

Flow diverter (FD) intervention is an emerging endovascular technique for treating intracranial aneurysms. High flow-diversion efficiency is desired to accelerate thrombotic occlusion inside the aneurysm; however, the risk of post-stenting stenosis in the parent artery is posed when flow-diversion efficiency is pursued by simply decreasing device porosity. For improving the prognosis of FD intervention, we develop an optimization method for the design of patient-specific FD devices that maintain high levels of porosity.

METHODS

An automated structure optimization method for FDs with helix-like wires was developed by applying a combination of lattice Boltzmann fluid simulation and simulated annealing procedure. Employing intra-aneurysmal average velocity as the objective function, the proposed method tailored the wire structure of an FD to a given vascular geometry by rearranging the starting phase of the helix wires.

RESULTS

FD optimization was applied to two idealized (S and C) vascular models and one realistic (R) model. Without altering the original device porosity of 80%, the flow-reduction rates of optimized FDs were improved by 5, 2, and 28% for the S, C, and R models, respectively. Furthermore, the aneurysmal flow patterns after optimization exhibited marked alterations. We confirmed that the disruption of bundle of inflow is of great help in blocking aneurysmal inflow. Axial displacement tests suggested that the optimal FD implanted in the R model possesses good robustness to tolerate uncertain axial positioning errors.

CONCLUSIONS

The optimization method developed in this study can be used to identify the FD wire structure with the optimal flow-diversion efficiency. For a given vascular geometry, custom-designed FD structure can maximally reduce the aneurysmal inflow with its porosity maintained at a high level, thereby lowering the risk of post-stenting stenosis. This method facilitates the study of patient-specific designs for FD devices.

摘要

背景

血流导向（FD）干预是一种用于治疗颅内动脉瘤的新兴血管内技术。为加速动脉瘤内血栓形成闭塞，需要高血流导向效率；然而，单纯通过降低装置孔隙率来追求血流导向效率时，会带来载瘤动脉支架置入后狭窄的风险。为改善FD干预的预后，我们开发了一种针对患者特异性FD装置设计的优化方法，该方法可保持较高的孔隙率水平。

方法

通过结合格子玻尔兹曼流体模拟和模拟退火程序，开发了一种针对带有螺旋状金属丝的FD的自动结构优化方法。该方法以瘤内平均流速为目标函数，通过重新排列螺旋金属丝的起始相位，将FD的金属丝结构调整为给定的血管几何形状。

结果

FD优化应用于两个理想化（S和C）血管模型和一个真实（R）模型。在不改变原始装置80%孔隙率的情况下，优化后的FD对S、C和R模型的血流减少率分别提高了5%、2%和28%左右。此外，优化后的动脉瘤血流模式表现出明显改变。我们证实，入流束的破坏对阻断动脉瘤入流有很大帮助。轴向位移测试表明，植入R模型的最佳FD对不确定的轴向定位误差具有良好的耐受性。

结论

本研究开发的优化方法可用于确定具有最佳血流导向效率的FD金属丝结构。对于给定的血管几何形状，定制设计的FD结构可在保持高孔隙率的同时最大程度减少动脉瘤入流，从而降低支架置入后狭窄的风险。该方法有助于开展针对FD装置的患者特异性设计研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e9dc/5260143/4a5e7894c02e/12938_2016_257_Fig1_HTML.jpg

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面向由螺旋状金属丝制成的血流导向装置的个性化设计：一项优化研究。

Towards the patient-specific design of flow diverters made from helix-like wires: an optimization study.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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