局部血流动力学条件与颅内动脉瘤壁局灶性变化相关。
Local Hemodynamic Conditions Associated with Focal Changes in the Intracranial Aneurysm Wall.
机构信息
From the Department of Bioengineering (J.R.C., F.D., B.J.C.), Volgenau School of Engineering, George Mason University, Fairfax, Virginia
From the Department of Bioengineering (J.R.C., F.D., B.J.C.), Volgenau School of Engineering, George Mason University, Fairfax, Virginia.
出版信息
AJNR Am J Neuroradiol. 2019 Mar;40(3):510-516. doi: 10.3174/ajnr.A5970. Epub 2019 Feb 7.
BACKGROUND AND PURPOSE
Aneurysm hemodynamics has been associated with wall histology and inflammation. We investigated associations between local hemodynamics and focal wall changes visible intraoperatively.
MATERIALS AND METHODS
Computational fluid dynamics models were constructed from 3D images of 65 aneurysms treated surgically. Aneurysm regions with different visual appearances were identified in intraoperative videos: 1) "atherosclerotic" (yellow), 2) "hyperplastic" (white), 3) "thin" (red), 4) rupture site, and 5) "normal" (similar to parent artery), They were marked on 3D reconstructions. Regional hemodynamics was characterized by the following: wall shear stress, oscillatory shear index, relative residence time, wall shear stress gradient and divergence, gradient oscillatory number, and dynamic pressure; these were compared using the Mann-Whitney test.
RESULTS
Hyperplastic regions had lower average wall shear stress ( = .005) and pressure ( = .009) than normal regions. Flow conditions in atherosclerotic and hyperplastic regions were similar but had higher average relative residence time ( = .03) and oscillatory shear index ( = .04) than thin regions. Hyperplastic regions also had a higher average gradient oscillatory number ( = .002) than thin regions. Thin regions had lower average relative residence time ( < .001), oscillatory shear index ( = .006), and gradient oscillatory number ( < .001) than normal regions, and higher average wall shear stress ( = .006) and pressure ( = .009) than hyperplastic regions. Thin regions tended to be aligned with the flow stream, while atherosclerotic and hyperplastic regions tended to be aligned with recirculation zones.
CONCLUSIONS
Local hemodynamics is associated with visible focal wall changes. Slow swirling flow with low and oscillatory wall shear stress was associated with atherosclerotic and hyperplastic changes. High flow conditions prevalent in regions near the flow impingement site characterized by higher and less oscillatory wall shear stress were associated with local "thinning" of the wall.
背景与目的
动脉瘤的血流动力学与管壁组织学和炎症有关。我们研究了术中可见的局部管壁变化与局部血流动力学之间的关系。
材料与方法
从 65 例手术治疗的动脉瘤的 3D 图像构建计算流体动力学模型。在术中录像中识别出具有不同视觉外观的动脉瘤区域:1)“动脉粥样硬化”(黄色),2)“增生”(白色),3)“薄”(红色),4)破裂部位,和 5)“正常”(与母动脉相似)。它们在 3D 重建上进行标记。通过以下方法描述局部血流动力学:壁面切应力、振荡剪切指数、相对驻留时间、壁面切应力梯度和散度、梯度振荡数和动压;使用 Mann-Whitney 检验进行比较。
结果
增生区域的平均壁面切应力( =.005)和压力( =.009)均低于正常区域。动脉粥样硬化和增生区域的流动条件相似,但相对驻留时间( =.03)和振荡剪切指数( =.04)高于薄区域。增生区域的平均梯度振荡数( =.002)也高于薄区域。薄区域的平均相对驻留时间( <.001)、振荡剪切指数( =.006)和梯度振荡数( <.001)均低于正常区域,平均壁面切应力( =.006)和压力( =.009)均高于增生区域。薄区域倾向于与流stream 对齐,而动脉粥样硬化和增生区域倾向于与再循环区域对齐。
结论
局部血流动力学与可见的局部管壁变化有关。低速、低振荡壁面切应力的缓慢旋流与动脉粥样硬化和增生变化有关。高流动条件在靠近流动冲击部位的区域普遍存在,其特点是壁面切应力较高且波动较小,与壁的局部“变薄”有关。
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