Allkemper Thomas, Tombach Bernd, Schwindt Wolfram, Kugel Harald, Schilling Matthias, Debus Otfried, Möllmann F, Heindel Walter
Department of Clinical Radiology, University of Muenster, Albert-Schweitzer-Strasse 33, 48149 Muenster, Germany.
Radiology. 2004 Sep;232(3):874-81. doi: 10.1148/radiol.2323030322. Epub 2004 Jul 29.
To assess and describe the appearance of intracerebral hemorrhage (ICH) at 3.0-T magnetic resonance (MR) imaging as compared with the appearance of this lesion type at 1.5-T MR imaging.
Sixteen patients with 21 parenchymal ICHs were examined. ICHs were classified as hyperacute, acute, early subacute, late subacute, or chronic. Patients underwent 1.5- and 3.0-T MR imaging with T2-weighted fast spin-echo, fluid-attenuated inversion-recovery (FLAIR), and T1-weighted spin-echo (1.5-T) and gradient-echo (3.0-T) sequences within 4 hours of each other. The central (ie, core) and peripheral (ie, body) parts of the ICHs were analyzed quantitatively by using contrast-to-noise ratio (CNR) calculations derived from signal intensity (SI) measurements; these values were statistically evaluated by using the Mann-Whitney U test. Two readers qualitatively determined SIs of the cores and bodies of the ICHs, degrees of apparent susceptibility artifacts, and lesion ages. The chi(2) test was used to determine statistically significant differences.
With the exception of the bodies of late subacute ICHs at 3.0-T T2-weighted imaging, which had increased positive CNRs and SI scores (P </=.05), all parts of the ICHs at all stages showed increased negative CNRs and SI scores at 3.0-T FLAIR and T2-weighted imaging, as compared with these values at 1.5 T (P </=.05). No significant CNR or SI score differences at any ICH stage were observed between 1.5-T spin-echo and 3.0-T gradient-echo T1-weighted imaging (P >.05). With the exception of minor susceptibility artifacts seen in acute and early subacute ICHs at 3.0-T T1-weighted gradient-echo imaging, no susceptibility artifacts were noticed. The ages of most lesions were identified correctly without significant differences between the two field strengths (P >.05), with the exception of the ages of acute ICHs, which were occasionally misinterpreted as early subacute lesions at 3.0 T.
At 3.0 T, all parts of acute and early subacute ICHs had significantly increased hypointensity on FLAIR and T2-weighted MR images as compared with the SIs of these lesions at 1.5 T. However, 1.5- and 3.0-T MR images were equivalent in the determination of acute to late subacute ICHs.
评估并描述与1.5-T磁共振成像(MR)中脑内出血(ICH)的表现相比,3.0-T MR成像中ICH的表现。
对16例患有21处脑实质ICH的患者进行检查。ICH被分类为超急性期、急性期、早期亚急性期、晚期亚急性期或慢性期。患者在彼此间隔4小时内分别接受1.5-T和3.0-T MR成像,采用T2加权快速自旋回波、液体衰减反转恢复(FLAIR)序列以及1.5-T的T1加权自旋回波序列和3.0-T的梯度回波序列。通过利用从信号强度(SI)测量得出的对比噪声比(CNR)计算对ICH的中心(即核心)和周边(即主体)部分进行定量分析;这些值采用Mann-Whitney U检验进行统计学评估。两名阅片者定性确定ICH核心和主体的SI、表观磁化率伪影程度以及病变年龄。采用卡方检验确定统计学上的显著差异。
除3.0-T T2加权成像中晚期亚急性期ICH的主体部分CNR和SI评分呈阳性增加(P≤0.05)外,与1.5-T时的值相比,所有阶段ICH的所有部分在3.0-T FLAIR和T2加权成像中均显示CNR和SI评分呈阴性增加(P≤0.05)。在1.5-T自旋回波和3.0-T梯度回波T1加权成像之间,在任何ICH阶段均未观察到CNR或SI评分有显著差异(P>0.05)。除了在3.0-T T1加权梯度回波成像中急性和早期亚急性期ICH中可见轻微的磁化率伪影外,未发现其他磁化率伪影。大多数病变的年龄被正确识别,两场强之间无显著差异(P>0.05),但急性ICH的年龄在3.0 T时偶尔会被误判为早期亚急性病变。
在3.0 T时,与1.5 T时这些病变的SI相比急性和早期亚急性期ICH的所有部分在FLAIR和T2加权MR图像上均有显著增加的低信号强度。然而,在确定急性至晚期亚急性期ICH方面,1.5-T和3.0-T MR图像是等效的。
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