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弥散加权分区斜多层面 EPI 增强脑干部位和海马区弥散受限小病灶的检出:附若干病例临床报告。

Diffusion-Weighted Zonal Oblique Multislice-EPI Enhances the Detection of Small Lesions with Diffusion Restriction in the Brain Stem and Hippocampus: A Clinical Report of Selected Cases.

机构信息

From the Institut für Radiologie (T.S., E.S., C.B., M.W., S.S.-S.), Kantonsspital Winterthur, Winterthur, Switzerland.

Institut für Radiologie und Nuklearmedizin (A.G., C.R.), Hirslanden Klinik St. Anna, Luzern, Switzerland.

出版信息

AJNR Am J Neuroradiol. 2018 Jul;39(7):1255-1259. doi: 10.3174/ajnr.A5635. Epub 2018 Apr 26.

DOI:10.3174/ajnr.A5635
PMID:29700045
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7655430/
Abstract

Diffusion restriction is the morphologic hallmark of acute ischemic infarcts and excitotoxic brain injury in various cerebral pathologies. Diffusion restriction is visible as hyperintensity on DWI and as hypointensity on ADC maps. Due to the vicinity of multiple anatomic structures in the brain stem and hippocampus, very small lesions with diffusion restriction may result in severe clinical symptomatology, but these small lesions easily go undetected on standard cerebral DWI due to insufficient spatial resolution, T2* blurring, and image artifacts caused by susceptibility-related image distortions. Diffusion-weighted zonal oblique multislice-EPI with reduced FOV acquisition permits a considerable increase in spatial resolution and enhances the visualization of very small pathologic lesions in the brain stem and hippocampus. Improved performance in the depiction of different pathologic lesions with diffusion restriction in the brain stem and hippocampus using this sequence compared with standard DWI in selected cases is presented.

摘要

弥散受限是多种脑病理中急性缺血性梗死和兴奋毒性脑损伤的形态学标志。弥散受限在 DWI 上表现为高信号,在 ADC 图上表现为低信号。由于脑干部和海马体附近存在多个解剖结构,非常小的弥散受限病变可能导致严重的临床症状,但由于空间分辨率不足、T2* 模糊以及由磁化率相关图像扭曲引起的图像伪影,这些小病变在标准脑 DWI 上很容易漏诊。使用减少 FOV 采集的弥散加权分区斜多层面 EPI 可以显著提高空间分辨率,并增强脑干部和海马体中小病变的可视化。与标准 DWI 相比,该序列在选定病例中显示出在脑干部和海马体中弥散受限的不同病变的显示能力有了显著提高。

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