颅内动脉瘤破裂前后的血流动力学差异
Hemodynamic Differences in Intracranial Aneurysms before and after Rupture.
作者信息
Cornelissen B M W, Schneiders J J, Potters W V, van den Berg R, Velthuis B K, Rinkel G J E, Slump C H, VanBavel E, Majoie C B L M, Marquering H A
机构信息
From the MIRA Institute for Biomedical Engineering and Technical Medicine (B.M.W.C., C.H.S.), University of Twente, Enschede, the Netherlands Departments of Radiology (B.M.W.C., J.J.S., W.V.P., R.v.d.B., C.B.L.M.M., H.A.M.) Biomedical Engineering and Physics (B.M.W.C, E.V., H.A.M.), Academic Medical Center, Amsterdam, the Netherlands
Departments of Radiology (B.M.W.C., J.J.S., W.V.P., R.v.d.B., C.B.L.M.M., H.A.M.).
出版信息
AJNR Am J Neuroradiol. 2015 Oct;36(10):1927-33. doi: 10.3174/ajnr.A4385. Epub 2015 Jun 18.
BACKGROUND AND PURPOSE
Rupture risk of intracranial aneurysms may depend on hemodynamic characteristics. This has been assessed by comparing hemodynamic data of ruptured and unruptured aneurysms. However, aneurysm geometry may change before, during, or just after rupture; this difference causes potential changes in hemodynamics. We assessed changes in hemodynamics in a series of intracranial aneurysms, by using 3D imaging before and after rupture.
MATERIALS AND METHODS
For 9 aneurysms in 9 patients, we used MRA, CTA, and 3D rotational angiography before and after rupture to generate geometric models of the aneurysm and perianeurysmal vasculature. Intra-aneurysmal hemodynamics were simulated by using computational fluid dynamics. Two neuroradiologists qualitatively assessed flow complexity, flow stability, inflow concentration, and flow impingement in consensus, by using flow-velocity streamlines and wall shear stress distributions.
RESULTS
Hemodynamics changed in 6 of the 9 aneurysms. The median time between imaging before and after rupture was 678 days (range, 14-1461 days) in these 6 cases, compared with 151 days (range, 34-183 days) in the 3 cases with unaltered hemodynamics. Changes were observed for flow complexity (n = 3), flow stability (n = 3), inflow concentration (n = 2), and region of flow impingement (n = 3). These changes were in all instances associated with aneurysm displacement due to rupture-related hematomas, growth, or newly formed lobulations.
CONCLUSIONS
Hemodynamic characteristics of intracranial aneurysms can be altered by geometric changes before, during, or just after rupture. Associations of hemodynamic characteristics with aneurysm rupture obtained from case-control studies comparing ruptured with unruptured aneurysms should therefore be interpreted with caution.
背景与目的
颅内动脉瘤的破裂风险可能取决于血流动力学特征。这一点已通过比较破裂和未破裂动脉瘤的血流动力学数据进行评估。然而,动脉瘤的几何形状可能在破裂前、破裂期间或破裂后即刻发生变化;这种差异会导致血流动力学的潜在改变。我们通过在破裂前后使用三维成像技术,评估了一系列颅内动脉瘤的血流动力学变化。
材料与方法
对于9例患者的9个动脉瘤,我们在破裂前后使用磁共振血管造影(MRA)、CT血管造影(CTA)和三维旋转血管造影,以生成动脉瘤及动脉瘤周围血管系统的几何模型。使用计算流体动力学模拟动脉瘤内的血流动力学。两名神经放射科医生通过使用流速流线和壁面剪应力分布,共同对血流复杂性、血流稳定性、流入集中性和血流冲击进行定性评估。
结果
9个动脉瘤中有6个的血流动力学发生了变化。在这6例中,破裂前后成像的中位时间为678天(范围14 - 1461天),而血流动力学未改变的3例的中位时间为151天(范围34 - 183天)。观察到血流复杂性(n = 3)、血流稳定性(n = 3)、流入集中性(n = 2)和血流冲击区域(n = 3)的变化。所有这些变化均与因破裂相关血肿、生长或新形成的小叶导致的动脉瘤移位有关。
结论
颅内动脉瘤的血流动力学特征可在破裂前、破裂期间或破裂后即刻因几何形状改变而发生改变。因此,从比较破裂与未破裂动脉瘤的病例对照研究中得出的血流动力学特征与动脉瘤破裂之间的关联应谨慎解读。
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