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小鼠脑的活体高分辨率扩散张量成像

In vivo high-resolution diffusion tensor imaging of the mouse brain.

作者信息

Wu Dan, Xu Jiadi, McMahon Michael T, van Zijl Peter C M, Mori Susumu, Northington Frances J, Zhang Jiangyang

机构信息

Department of Biomedical Engineering, Johns Hopkins University School of Medicine, Baltimore, MD, USA.

出版信息

Neuroimage. 2013 Dec;83:18-26. doi: 10.1016/j.neuroimage.2013.06.012. Epub 2013 Jun 12.

DOI:10.1016/j.neuroimage.2013.06.012
PMID:23769916
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3797856/
Abstract

Diffusion tensor imaging (DTI) of the laboratory mouse brain provides important macroscopic information for anatomical characterization of mouse models in basic research. Currently, in vivo DTI of the mouse brain is often limited by the available resolution. In this study, we demonstrate in vivo high-resolution DTI of the mouse brain using a cryogenic probe and a modified diffusion-weighted gradient and spin echo (GRASE) imaging sequence at 11.7 T. Three-dimensional (3D) DTI of the entire mouse brain at 0.125 mm isotropic resolution could be obtained in approximately 2 h. The high spatial resolution, which was previously only available with ex vivo imaging, enabled non-invasive examination of small structures in the adult and neonatal mouse brains. Based on data acquired from eight adult mice, a group-averaged DTI atlas of the in vivo adult mouse brain with 60 structure segmentations was developed. Comparisons between in vivo and ex vivo mouse brain DTI data showed significant differences in brain morphology and tissue contrasts, which indicate the importance of the in vivo DTI-based mouse brain atlas.

摘要

实验室小鼠脑的扩散张量成像(DTI)为基础研究中的小鼠模型解剖特征提供了重要的宏观信息。目前,小鼠脑的体内DTI常常受到可用分辨率的限制。在本研究中,我们展示了使用低温探头以及经过改良的扩散加权梯度自旋回波(GRASE)成像序列,在11.7 T磁场下对小鼠脑进行体内高分辨率DTI。在约2小时内可获得各向同性分辨率为0.125 mm的整个小鼠脑的三维(3D)DTI。此前仅能通过离体成像获得的高空间分辨率,使得对成年和新生小鼠脑内小结构进行无创检查成为可能。基于从八只成年小鼠获取的数据,构建了具有60个结构分割的成年小鼠脑体内平均DTI图谱。体内和离体小鼠脑DTI数据的比较显示,脑形态和组织对比度存在显著差异,这表明基于体内DTI的小鼠脑图谱具有重要意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cd83/3797856/0f2827ca310f/nihms-492306-f0001.jpg

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