Scalable volumetric imaging for ultrahigh-speed brain mapping at synaptic resolution

The speed of high-resolution optical imaging has been a rate-limiting factor for meso-scale mapping of brain structures and functional circuits, which is of fundamental importance for neuroscience research. Here, we describe a new microscopy method of Volumetric Imaging with Synchronized on-the-fly-...

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Detalles Bibliográficos
Autores principales: Wang, Hao, Zhu, Qingyuan, Ding, Lufeng, Shen, Yan, Yang, Chao-Yu, Xu, Fang, Shu, Chang, Guo, Yujie, Xiong, Zhiwei, Shan, Qinghong, Jia, Fan, Su, Peng, Yang, Qian-Ru, Li, Bing, Cheng, Yuxiao, He, Xiaobin, Chen, Xi, Wu, Feng, Zhou, Jiang-Ning, Xu, Fuqiang, Han, Hua, Lau, Pak-Ming, Bi, Guo-Qiang
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2019
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8291554/
https://www.ncbi.nlm.nih.gov/pubmed/34691959
http://dx.doi.org/10.1093/nsr/nwz053
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author Wang, Hao
Zhu, Qingyuan
Ding, Lufeng
Shen, Yan
Yang, Chao-Yu
Xu, Fang
Shu, Chang
Guo, Yujie
Xiong, Zhiwei
Shan, Qinghong
Jia, Fan
Su, Peng
Yang, Qian-Ru
Li, Bing
Cheng, Yuxiao
He, Xiaobin
Chen, Xi
Wu, Feng
Zhou, Jiang-Ning
Xu, Fuqiang
Han, Hua
Lau, Pak-Ming
Bi, Guo-Qiang
author_facet Wang, Hao
Zhu, Qingyuan
Ding, Lufeng
Shen, Yan
Yang, Chao-Yu
Xu, Fang
Shu, Chang
Guo, Yujie
Xiong, Zhiwei
Shan, Qinghong
Jia, Fan
Su, Peng
Yang, Qian-Ru
Li, Bing
Cheng, Yuxiao
He, Xiaobin
Chen, Xi
Wu, Feng
Zhou, Jiang-Ning
Xu, Fuqiang
Han, Hua
Lau, Pak-Ming
Bi, Guo-Qiang
author_sort Wang, Hao
collection PubMed
description The speed of high-resolution optical imaging has been a rate-limiting factor for meso-scale mapping of brain structures and functional circuits, which is of fundamental importance for neuroscience research. Here, we describe a new microscopy method of Volumetric Imaging with Synchronized on-the-fly-scan and Readout (VISoR) for high-throughput, high-quality brain mapping. Combining synchronized scanning beam illumination and oblique imaging over cleared tissue sections in smooth motion, the VISoR system effectively eliminates motion blur to obtain undistorted images. By continuously imaging moving samples without stopping, the system achieves high-speed 3D image acquisition of an entire mouse brain within 1.5 hours, at a resolution capable of visualizing synaptic spines. A pipeline is developed for sample preparation, imaging, 3D image reconstruction and quantification. Our approach is compatible with immunofluorescence methods, enabling flexible cell-type specific brain mapping and is readily scalable for large biological samples such as primate brains. Using this system, we examined behaviorally relevant whole-brain neuronal activation in 16 c-Fos-shEGFP mice under resting or forced swimming conditions. Our results indicate the involvement of multiple subcortical areas in stress response. Intriguingly, neuronal activation in these areas exhibits striking individual variability among different animals, suggesting the necessity of sufficient cohort size for such studies.
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spelling pubmed-82915542021-10-21 Scalable volumetric imaging for ultrahigh-speed brain mapping at synaptic resolution Wang, Hao Zhu, Qingyuan Ding, Lufeng Shen, Yan Yang, Chao-Yu Xu, Fang Shu, Chang Guo, Yujie Xiong, Zhiwei Shan, Qinghong Jia, Fan Su, Peng Yang, Qian-Ru Li, Bing Cheng, Yuxiao He, Xiaobin Chen, Xi Wu, Feng Zhou, Jiang-Ning Xu, Fuqiang Han, Hua Lau, Pak-Ming Bi, Guo-Qiang Natl Sci Rev Research Article The speed of high-resolution optical imaging has been a rate-limiting factor for meso-scale mapping of brain structures and functional circuits, which is of fundamental importance for neuroscience research. Here, we describe a new microscopy method of Volumetric Imaging with Synchronized on-the-fly-scan and Readout (VISoR) for high-throughput, high-quality brain mapping. Combining synchronized scanning beam illumination and oblique imaging over cleared tissue sections in smooth motion, the VISoR system effectively eliminates motion blur to obtain undistorted images. By continuously imaging moving samples without stopping, the system achieves high-speed 3D image acquisition of an entire mouse brain within 1.5 hours, at a resolution capable of visualizing synaptic spines. A pipeline is developed for sample preparation, imaging, 3D image reconstruction and quantification. Our approach is compatible with immunofluorescence methods, enabling flexible cell-type specific brain mapping and is readily scalable for large biological samples such as primate brains. Using this system, we examined behaviorally relevant whole-brain neuronal activation in 16 c-Fos-shEGFP mice under resting or forced swimming conditions. Our results indicate the involvement of multiple subcortical areas in stress response. Intriguingly, neuronal activation in these areas exhibits striking individual variability among different animals, suggesting the necessity of sufficient cohort size for such studies. Oxford University Press 2019-10 2019-04-24 /pmc/articles/PMC8291554/ /pubmed/34691959 http://dx.doi.org/10.1093/nsr/nwz053 Text en © The Author(s) 2019. Published by Oxford University Press on behalf of China Science Publishing & Media Ltd. https://creativecommons.org/licenses/by/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) ), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Wang, Hao
Zhu, Qingyuan
Ding, Lufeng
Shen, Yan
Yang, Chao-Yu
Xu, Fang
Shu, Chang
Guo, Yujie
Xiong, Zhiwei
Shan, Qinghong
Jia, Fan
Su, Peng
Yang, Qian-Ru
Li, Bing
Cheng, Yuxiao
He, Xiaobin
Chen, Xi
Wu, Feng
Zhou, Jiang-Ning
Xu, Fuqiang
Han, Hua
Lau, Pak-Ming
Bi, Guo-Qiang
Scalable volumetric imaging for ultrahigh-speed brain mapping at synaptic resolution
title Scalable volumetric imaging for ultrahigh-speed brain mapping at synaptic resolution
title_full Scalable volumetric imaging for ultrahigh-speed brain mapping at synaptic resolution
title_fullStr Scalable volumetric imaging for ultrahigh-speed brain mapping at synaptic resolution
title_full_unstemmed Scalable volumetric imaging for ultrahigh-speed brain mapping at synaptic resolution
title_short Scalable volumetric imaging for ultrahigh-speed brain mapping at synaptic resolution
title_sort scalable volumetric imaging for ultrahigh-speed brain mapping at synaptic resolution
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8291554/
https://www.ncbi.nlm.nih.gov/pubmed/34691959
http://dx.doi.org/10.1093/nsr/nwz053
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