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使用多种基于T1的MRI信号加权方法评估人脑肿瘤异质性

Evaluation of human brain tumor heterogeneity using multiple T1-based MRI signal weighting approaches.

作者信息

Donahue Manus J, Blakeley Jaishri O, Zhou Jinyuan, Pomper Martin G, Laterra John, van Zijl Peter C M

机构信息

Russell H. Morgan Department of Radiology and Radiological Science, Neuroscience Section, Division of MR Research, Johns Hopkins University, 720 Rutland Avenue, Baltimore, MD 21205, USA.

出版信息

Magn Reson Med. 2008 Feb;59(2):336-44. doi: 10.1002/mrm.21467.

DOI:10.1002/mrm.21467
PMID:18183606
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2860187/
Abstract

Vascular-space-occupancy (VASO) MRI without contrast injection was explored for imaging cerebral blood volume (CBV) and tissue heterogeneity in gliomas (n = 10). VASO contrast complemented contrast-enhanced T(1)-weighted (GAD-T(1)w), FLAIR and T(1)w magnetization-prepared-rapid-gradient-echo (MPRAGE) images. High-grade gliomas showed a VASO-outlined hyperintense zone corresponding to long-T(1) regions in MPRAGE and to nonenhancing regions in GAD-T(1)w images. FLAIR, MPRAGE, and VASO data were used to segment tumors into multiple zones of different T(1). After removal of known resection areas using pre- and postsurgical MRI, the volume of overlap between the hyperintense VASO-zone and the long-T(1) MPRAGE zone correlated with that of GAD-T(1)w enhancement (R(2) = 0.99) and tumor grade. Based on these correlations, this remaining long T(1) overlap area was tentatively assigned to necrosis. In one promising case the collective T(1)-weighted approach accurately identified a low-grade glioma despite the presence of contrast enhancement in GAD-T(1)w images consequential to chemoradiation-associated treatment effect. The results suggest that this collective T(1)-weighted approach may provide useful information for regional assessment of heterogeneous tumors and for guiding treatment-related decisions in patients with gliomas.

摘要

在10例胶质瘤患者中,对无需注射造影剂的血管空间占据(VASO)磁共振成像(MRI)进行了研究,以成像脑血容量(CBV)和组织异质性。VASO造影剂补充了对比增强T(1)加权(GAD-T(1)w)、液体衰减反转恢复(FLAIR)和T(1)加权磁化准备快速梯度回波(MPRAGE)图像。高级别胶质瘤显示出一个VASO勾勒的高强度区域,对应于MPRAGE中的长T(1)区域和GAD-T(1)w图像中的非增强区域。利用FLAIR、MPRAGE和VASO数据将肿瘤分割为不同T(1)的多个区域。在使用术前和术后MRI去除已知切除区域后,高强度VASO区域与长T(1)MPRAGE区域之间的重叠体积与GAD-T(1)w增强体积(R(2) = 0.99)和肿瘤分级相关。基于这些相关性,将这个剩余的长T(1)重叠区域初步认定为坏死。在一个有前景的病例中,尽管由于放化疗相关治疗效果,GAD-T(1)w图像中存在对比增强,但综合T(1)加权方法准确地识别出了一个低级别胶质瘤。结果表明,这种综合T(1)加权方法可能为异质性肿瘤的区域评估以及指导胶质瘤患者的治疗相关决策提供有用信息。

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