脑动脉瘤破裂前后的血流动力学和形态学差异。
Hemodynamic and morphological differences in cerebral aneurysms between before and after rupture.
作者信息
Fujimura Soichiro, Yamanaka Yuma, Takao Hiroyuki, Ishibashi Toshihiro, Otani Katharina, Karagiozov Kostadin, Fukudome Koji, Yamamoto Makoto, Murayama Yuichi
机构信息
1Department of Mechanical Engineering, Tokyo University of Science, Katsushika-ku, Tokyo.
2Division of Innovation for Medical Information Technology and.
出版信息
J Neurosurg. 2023 Sep 1;140(3):774-782. doi: 10.3171/2023.6.JNS23289. Print 2024 Mar 1.
OBJECTIVE
Although it has been proposed that aneurysm morphology is different after rupture, detailed research of the morphological changes using 3D imaging acquired before and after rupture has not been conducted because of the difficulty of data collection. Similarly, hemodynamic changes due to morphological alterations after rupture have not been analyzed. The aim of this study was to investigate the changes in morphology and hemodynamics observed after aneurysm rupture.
METHODS
For 21 cerebral aneurysms (21 patients) that ruptured during observation, 3D geometry of the aneurysms and parent arteries were reconstructed based on the angiographic images before and after their rupture. In addition, using the reconstructed geometry, blood flow was simulated by computational fluid dynamics (CFD) analysis. Morphological and hemodynamic parameters were calculated both before and after rupture, and their changes from before to after were compared.
RESULTS
In the morphological parameters, statistically significantly higher values were observed after rupture in height (before: 5.5 ± 2.1 mm, after: 6.1 ± 2.0 mm; p < 0.0001), aspect ratio (p = 0.002), aneurysm volume (p = 0.04), and undulation index (p = 0.005). In terms of hemodynamic changes, the mean normalized wall shear stress (NWSS) decreased significantly (before: 5.4 × 10-1 ± 2.9 × 10-1, after: 4.4 × 10-1 ± 2.8 × 10-1; p < 0.001) as well as the other NWSS parameters, including maximum and minimum NWSS, which were associated with stagnant flow due to the morphological changes after rupture.
CONCLUSIONS
Aneurysm morphology was found to change after rupture into an elongated and irregular geometry, accompanied by an increase in aneurysm volume. These morphological changes were also associated with statistically significant hemodynamic alterations that produced low wall sheer stress by stagnant flow. The authors' results also provide the opportunity to explore and develop a risk evaluation method for aneurysm rupture based on prerupture morphology and hemodynamics by further exploration in this direction.
目的
尽管有人提出动脉瘤破裂后的形态不同,但由于数据收集困难,尚未对破裂前后通过三维成像获得的形态学变化进行详细研究。同样,也未对破裂后形态改变引起的血流动力学变化进行分析。本研究的目的是调查动脉瘤破裂后观察到的形态学和血流动力学变化。
方法
对于在观察期间破裂的21个脑动脉瘤(21例患者),根据破裂前后的血管造影图像重建动脉瘤及其载瘤动脉的三维几何形状。此外,利用重建的几何形状,通过计算流体动力学(CFD)分析模拟血流。计算破裂前后的形态学和血流动力学参数,并比较其前后变化。
结果
在形态学参数方面,破裂后高度(破裂前:5.5±2.1mm,破裂后:6.1±2.0mm;p<0.0001)、纵横比(p=0.002)、动脉瘤体积(p=0.04)和波动指数(p=0.005)在统计学上显著升高。在血流动力学变化方面,平均归一化壁面切应力(NWSS)显著降低(破裂前:5.4×10-1±2.9×10-1,破裂后:4.4×10-1±2.8×10-1;p<0.001),以及其他NWSS参数,包括最大和最小NWSS,这些参数与破裂后形态改变导致的血流停滞有关。
结论
发现动脉瘤破裂后形态会转变为细长且不规则的几何形状,同时动脉瘤体积增大。这些形态学变化还与血流动力学的显著改变相关,血流停滞产生了低壁面切应力。作者的研究结果也为通过在该方向上的进一步探索,基于破裂前的形态学和血流动力学开发动脉瘤破裂风险评估方法提供了机会。
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