基于数值模拟的连接上矢状窦的脑桥静脉血液动力学。

Hemodynamics of cerebral bridging veins connecting the superior sagittal sinus based on numerical simulation.

机构信息

Department of Anatomy, Anhui Medical University, 81 Meishan Road, Hefei, 230032, China.

出版信息

Biomed Eng Online. 2018 Mar 20;17(1):35. doi: 10.1186/s12938-018-0466-8.

DOI:10.1186/s12938-018-0466-8

PMID:29558949

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5861626/

Abstract

BACKGROUND

The physiological and hemodynamic features of bridging veins involve wall shear stress (WSS) of the cerebral venous system. Based on the data of cadavers and computational fluid dynamics software pack, the hemodynamic physical models of bridging veins (BVs) connecting superior sagittal sinus (SSS) were established.

RESULTS

A total of 137 BVs formed two clusters along the SSS: anterior group and posterior group. The diameters of the BVs in posterior group were larger than of the anterior group, and the entry angle was smaller. When the diameter of a BV was greater than 1.2 mm, the WSS decreased in the downstream wall of SSS with entry angle less than 105°, and the WSS also decreased in the upstream wall of BVs with entry angle less than 65°. The minimum WSS in BVs was only 63% of that in SSS. Compared with the BVs in anterior group, the minimum WSS in the posterior group was smaller, and the distance from location of the minimum WSS to the dural entrance was longer.

CONCLUSION

The cerebral venous thrombosis occurs more easily when the diameter of a BV is greater than 1.2 mm and the entry angle is less than 65°. The embolus maybe form earlier in the upstream wall of BVs in the posterior part of SSS.

摘要

背景

桥静脉的生理和血流动力学特征涉及脑静脉系统的壁面切应力（WSS）。基于尸体数据和计算流体动力学软件包，建立了连接上矢状窦（SSS）的桥静脉（BVs）的血流动力学物理模型。

结果

共有 137 条 BVs 沿 SSS 形成两个簇：前组和后组。后组 BVs 的直径大于前组，进入角度较小。当 BVs 的直径大于 1.2mm 时，进入角度小于 105°时，SSS 下游壁的 WSS 减小，进入角度小于 65°时，BVs 的上游壁的 WSS 也减小。BVs 中的最小 WSS 仅为 SSS 的 63%。与前组 BVs 相比，后组 BVs 的最小 WSS 更小，且最小 WSS 位置到硬脑膜入口的距离更长。

结论

当 BVs 的直径大于 1.2mm 且进入角度小于 65°时，脑静脉血栓形成更容易发生。在后组 SSS 的 BVs 上游壁，栓子可能更早形成。

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基于数值模拟的连接上矢状窦的脑桥静脉血液动力学。

Hemodynamics of cerebral bridging veins connecting the superior sagittal sinus based on numerical simulation.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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