Department of Radiology, University of Washington, 815 Mercer St, Box 358050, Room 124, Seattle, WA 98109, USA.
Radiology. 2010 Feb;254(2):551-63. doi: 10.1148/radiol.09090535.
To compare the diagnostic performances of three T1-weighted 3.0-T magnetic resonance (MR) sequences at carotid intraplaque hemorrhage (IPH) imaging, with histo logic analysis as the reference standard.
Institutional review board approval and informed consent were obtained for this HIPAA-compliant study. Twenty patients scheduled for carotid endarterectomy underwent 3.0-T carotid MR imaging, including two-dimensional fast spin-echo, three-dimensional time-of-flight (TOF), and three-dimensional magnetization-prepared rapid acquisition gradient-echo (RAGE) sequences. Two reviewers blinded to the histologic findings assessed the presence, area, and signal intensity of IPH with each sequence. Detection statistics (sensitivity, specificity, and Cohen kappa values) and agreement between area measurements (Pearson correlation coefficient [r] values) were calculated for each sequence.
When all 231 available MR sections were included for analysis, the magnetization-prepared RAGE (kappa = 0.53) and fast spin-echo (kappa = 0.42) sequences yielded moderate agreement between MR and histologic measurements, while the TOF sequence yielded fair agreement (k = 0.33). However, when 47 sections with either small IPHs or heavily calcified IPHs were excluded, sensitivity, specificity, and kappa values, respectively, were 80%, 97%, and 0.80 for magnetization-prepared RAGE imaging; 70%, 92%, and 0.63 for fast spin-echo imaging; and 56%, 96%, and 0.57 for TOF imaging. MR imaging-histologic analysis correlation for IPH area was highest with magnetization-prepared RAGE imaging (r = 0.813), followed by TOF (r = 0.745) and fast spin-echo (r = 0.497) imaging. The capability of these three sequences for IPH detection appeared to be in good agreement with the quantitative contrast of IPH versus background plaque tissue.
The magnetization-prepared RAGE sequence, as compared with the fast spin-echo and TOF sequences, demonstrated higher diagnostic capability for the detection and quantification of IPH. Potential limitations of 3.0-T IPH MR imaging are related to hemorrhage size and coexisting calcification.
比较三种 3.0T 磁共振(MR)T1 加权序列在颈动脉斑块内出血(IPH)成像中的诊断性能,以组织学分析为参考标准。
本 HIPAA 合规研究获得了机构审查委员会的批准和知情同意。20 例拟行颈动脉内膜切除术的患者接受了 3.0T 颈动脉 MR 成像,包括二维快速自旋回波(fast spin-echo,FSE)、三维时间飞跃(time-of-flight,TOF)和三维磁化准备快速获取梯度回波(magnetization-prepared rapid acquisition gradient-echo,MP-RAGE)序列。两名对组织学结果不知情的观察者使用每个序列评估 IPH 的存在、面积和信号强度。计算了每种序列的检测统计数据(敏感性、特异性和 Cohen kappa 值)和面积测量的一致性(Pearson 相关系数 [r] 值)。
当纳入分析的 231 个 MR 切片均包括在内时,MP-RAGE(kappa = 0.53)和 FSE(kappa = 0.42)序列的 MR 与组织学测量之间的一致性为中度,而 TOF 序列的一致性为轻度(k = 0.33)。然而,当排除 47 个 IPH 较小或严重钙化的切片时,MP-RAGE 成像的敏感性、特异性和 kappa 值分别为 80%、97%和 0.80;FSE 成像为 70%、92%和 0.63;TOF 成像为 56%、96%和 0.57。MP-RAGE 成像与 IPH 面积的 MR-组织学分析相关性最高(r = 0.813),其次是 TOF(r = 0.745)和 FSE(r = 0.497)成像。这三种序列检测 IPH 的能力似乎与 IPH 与背景斑块组织的定量对比相一致。
与 FSE 和 TOF 序列相比,MP-RAGE 序列在检测和定量 IPH 方面具有更高的诊断能力。3.0T IPH MR 成像的潜在局限性与出血大小和并存的钙化有关。