利用微光学切片层析成像技术获取小鼠大脑的高分辨率图谱。

Micro-optical sectioning tomography to obtain a high-resolution atlas of the mouse brain.

机构信息

Britton Chance Center for Biomedical Photonics, Wuhan National Laboratory for Optoelectronics-Huazhong University of Science and Technology, Wuhan 430074, P. R. China.

出版信息

Science. 2010 Dec 3;330(6009):1404-8. doi: 10.1126/science.1191776. Epub 2010 Nov 4.

DOI:10.1126/science.1191776

PMID:21051596

Abstract

The neuroanatomical architecture is considered to be the basis for understanding brain function and dysfunction. However, existing imaging tools have limitations for brainwide mapping of neural circuits at a mesoscale level. We developed a micro-optical sectioning tomography (MOST) system that can provide micrometer-scale tomography of a centimeter-sized whole mouse brain. Using MOST, we obtained a three-dimensional structural data set of a Golgi-stained whole mouse brain at the neurite level. The morphology and spatial locations of neurons and traces of neurites could be clearly distinguished. We found that neighboring Purkinje cells stick to each other.

摘要

神经解剖结构被认为是理解大脑功能和功能障碍的基础。然而，现有的成像工具在中尺度水平上对神经回路进行全脑大范围映射具有局限性。我们开发了一种微光学切片层析成像（MOST）系统，该系统可以提供厘米大小的全鼠脑的亚微米层析成像。使用 MOST，我们获得了在神经突水平上用高尔基染色的全鼠脑的三维结构数据集。神经元和神经突痕迹的形态和空间位置可以清晰区分。我们发现相邻的浦肯野细胞相互粘着。

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利用微光学切片层析成像技术获取小鼠大脑的高分辨率图谱。

Micro-optical sectioning tomography to obtain a high-resolution atlas of the mouse brain.

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