脊髓
灰质
白质
显微镜
解剖
背
双光子激发显微术
材料科学
化学
生物医学工程
生物物理学
生物
神经科学
荧光
病理
光学
医学
物理
磁共振成像
放射科
作者
Chenxi Liao,Z.Y. Wang,Yi Zhou,L Zhou,Xiaoqin Zhu,W.G. LIU,Jianxin Chen
摘要
Summary The spinal cord is a vital link between the brain and the body and mainly comprises neurons, glial cells and nerve fibres. In this work, nonlinear optical (NLO) microscopy based on intrinsic tissue properties was employed to label‐freely analyze the cells and matrix in spinal cords at a molecular level. The high‐resolution and high‐contrast NLO images of unstained spinal cords demonstrate that NLO microscopy has the ability to show the microstructure of white and grey matter including ventral horn, intermediate area, dorsal horns, ventral column, lateral column and dorsal column. Neurons with various sizes were identified in grey matter by dark spots of nonfluorescent nuclei encircled by cytoplasm‐emitting two‐photon excited fluorescence signals. Nerve fibres and neuroglias were observed in white matter. Besides, the spinal arteries were clearly presented by NLO microscopy. Using spectral and morphological information, this technique was proved to be an effective tool for label‐freely imaging spinal cord tissues, based on endogenous signals in biological tissue. With future development, we foresee promising applications of the NLO technique for in vivo , real‐time assessment of spinal cord diseases or injures.
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