使用无创 1.5T MR 成像对栓塞实验性动脉瘤进行 3D 计算机化闭塞评分。
3D computerized occlusion rating of embolized experimental aneurysms using noninvasive 1.5T MR imaging.
机构信息
Department of Neurosurgery, Kantonsspital Aarau, Aarau, Switzerland.
出版信息
AJNR Am J Neuroradiol. 2012 Apr;33(4):661-6. doi: 10.3174/ajnr.A2843. Epub 2011 Dec 22.
BACKGROUND AND PURPOSE
For embolized cerebral aneurysms, the initial occlusion rate is the most powerful parameter to predict aneurysm rerupture and recanalization. However, the occlusion rate is only estimated subjectively in clinical routine. To minimize subjective bias, computer occlusion-rating (COR) was successfully validated for 2D images. To minimize the remaining inaccuracy of 2D-COR, COR was applied to 1.5T 3D MR imaging.
MATERIALS AND METHODS
Twelve experimental rabbit aneurysms were subjected to stent-assisted coil embolization followed by 2D DSA and 3D MR imaging. Subjective occlusion-rate (SOR) was estimated. Linear parameters (aneurysm length, neck width, parent vessel diameter) were measured on 2D DSA and 3D MR imaging. The occlusion rate was measured by contrast medium-based identification of the nonoccluded 2D area/3D volume in relation to the total aneurysm 2D area/3D volume. 2D and 3D parameters were statistically compared.
RESULTS
There were no limiting metallic artifacts by using 3D MR imaging. Linear parameters (millimeters) were nearly identical on 2D DSA and 3D MR imaging (aneurysm length: 7.5 ± 2.6 versus 7.4 ± 2.5, P = .2334; neck width: 3.8 ± 1.0 versus 3.7 ± 1.1, P = .6377; parent vessel diameter: 2.7 ± 0.6 versus 2.7 ± 0.5, P = .8438), proving the high accuracy of 3D MR imaging. COR measured on 3D MR imaging was considerably lower (61.8% ± 26.6%) compared with the following: 1) 2D-COR (65.6% ± 27.1%, P = .0537) and 2) 2D-SOR estimations (69.2% ± 27.4%, P = .002). These findings demonstrate unacceptable bias in the current clinical standard SOR estimations.
CONCLUSIONS
3D-COR of embolized aneurysms is easily feasible. Its accuracy is superior to that of the clinical standard 2D-SOR. The difference between 3D-COR and 2D-COR approached statistical significance. 3D-COR may add objectivity to the ability to stratify the risk of rerupture in embolized cerebral aneurysms.
背景与目的
对于栓塞后的脑动脉瘤,初始闭塞率是预测动脉瘤再破裂和再通的最有力参数。然而,在临床常规中,闭塞率仅被主观估计。为了最小化主观偏差,计算机闭塞评分(COR)已成功应用于 2D 图像。为了最小化 2D-COR 的剩余不准确性,将 COR 应用于 1.5T 3D MR 成像。
材料与方法
对 12 只实验性兔动脉瘤进行支架辅助线圈栓塞后,行 2D DSA 和 3D MR 成像。主观闭塞率(SOR)估计。线性参数(动脉瘤长度、颈部宽度、母血管直径)在 2D DSA 和 3D MR 成像上进行测量。闭塞率通过基于对比剂的方法测量与动脉瘤总 2D 面积/3D 体积相比的未闭塞 2D 面积/3D 体积。比较 2D 和 3D 参数。
结果
使用 3D MR 成像时,没有限制金属伪影。线性参数(毫米)在 2D DSA 和 3D MR 成像上几乎相同(动脉瘤长度:7.5±2.6 对 7.4±2.5,P=0.2334;颈部宽度:3.8±1.0 对 3.7±1.1,P=0.6377;母血管直径:2.7±0.6 对 2.7±0.5,P=0.8438),证明了 3D MR 成像的高准确性。在 3D MR 成像上测量的 COR(61.8%±26.6%)明显低于以下情况:1)2D-COR(65.6%±27.1%,P=0.0537)和 2)2D-SOR 估计值(69.2%±27.4%,P=0.002)。这些发现表明当前临床标准 SOR 估计存在不可接受的偏差。
结论
栓塞动脉瘤的 3D-COR 易于实现。其准确性优于临床标准的 2D-SOR。3D-COR 与 2D-COR 之间的差异接近统计学意义。3D-COR 可能为分层栓塞脑动脉瘤再破裂风险提供客观性。
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