使用四维血流磁共振成像技术对未破裂脑动脉瘤最大壁切应力点进行特征描述。

Characterization of Maximum Wall Shear Stress Points in Unruptured Cerebral Aneurysms Using Four-dimensional Flow Magnetic Resonance Imaging.

机构信息

Department of Neurosurgery, Hokuriku Central Hospital of Japan Mutual Aid Association of Public School Teachers, 123 Nodera, Oyabe, 932-8503, Toyama, Japan.

Department of Neurosurgery, Kanazawa University School of Medicine, Kanazawa, Japan.

出版信息

Clin Neuroradiol. 2024 Dec;34(4):899-906. doi: 10.1007/s00062-024-01436-w. Epub 2024 Jul 17.

DOI:10.1007/s00062-024-01436-w

Abstract

BACKGROUND

Maximum wall shear stress (maxWSS) points of unruptured cerebral aneurysms (UCAs) may cause wall remodeling leading to rupture. We characterized maxWSS points and their inherent intra-aneurysmal flow structures in a sizable cohort of saccular UCAs using four-dimensional (4D) flow magnetic resonance imaging (MRI).

METHODS

After contrast administration, 50 saccular UCAs were subjected to 4D flow MRI using a 1.5 T MRI scanner. Post-processing of obtained data was performed using commercially available software. The maxWSS points and maxWSS values were evaluated. The maxWSS values were statistically compared between aneurysm groups.

RESULTS

The maxWSS point was located on the aneurysm apex in 9 (18.0%), body in 2 (4.0%), and neck in 39 (78.0%) UCAs. The inherent intra-aneurysmal flow structure of the maxWSS point was an inflow zone in 34 (68.0%) UCAs, an inflow jet in 8 (16.0%), and an impingement zone in 8 (16.0%). The maxWSS point on the neck had significantly higher maxWSS values than those points on the other wall areas (P = 0.008). The maxWSS values of the maxWSS points on the apex and on the impingement zone were not significantly different compared with those of the other maxWSS points.

CONCLUSION

The maxWSS points existed preferentially on the aneurysmal neck adjacent to the inflow zone with higher maxWSS values. The maxWSS points existed occasionally on the aneurysmal apex adjacent to the impingement zone. 4D flow MRI may be helpful to discriminate saccular UCAs with higher-risk maxWSS points that can cause wall remodeling leading to rupture.

摘要

背景

未破裂脑动脉瘤（UCAs）的最大壁切应力（maxWSS）点可能导致壁重塑，从而导致破裂。我们使用四维（4D）血流磁共振成像（MRI）对大量囊状 UCA 中的 maxWSS 点及其固有颅内流场结构进行了特征描述。

方法

在对比剂给药后，对 50 个囊状 UCA 使用 1.5T MRI 扫描仪进行 4D 血流 MRI。使用商业可用软件对获得的数据进行后处理。评估 maxWSS 点和 maxWSS 值。对动脉瘤组之间的 maxWSS 值进行统计学比较。

结果

maxWSS 点位于 9 个（18.0%）、2 个（4.0%）和 39 个（78.0%）UCA 的瘤顶、体部和颈部。maxWSS 点的固有颅内流场结构为 34 个（68.0%）UCA 的流入区、8 个（16.0%）UCA 的流入射流区和 8 个（16.0%）UCA 的冲击区。颈部 maxWSS 点的 maxWSS 值明显高于其他壁区的 maxWSS 值（P=0.008）。瘤顶和冲击区的 maxWSS 点的 maxWSS 值与其他 maxWSS 点的 maxWSS 值无显著差异。

结论

maxWSS 点优先存在于邻近流入区的瘤颈处，具有较高的 maxWSS 值。maxWSS 点偶尔存在于邻近冲击区的瘤顶处。4D 血流 MRI 可能有助于区分具有较高 maxWSS 值的囊状 UCA，这些值可能导致壁重塑，从而导致破裂。

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使用四维血流磁共振成像技术对未破裂脑动脉瘤最大壁切应力点进行特征描述。

Characterization of Maximum Wall Shear Stress Points in Unruptured Cerebral Aneurysms Using Four-dimensional Flow Magnetic Resonance Imaging.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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