Kilohertz two-photon brain imaging in awake mice

被引:0
|
作者
Tong Zhang
Oscar Hernandez
Radosław Chrapkiewicz
Adam Shai
Mark J. Wagner
Yanping Zhang
Cheng-Hsun Wu
Jin Zhong Li
Masatoshi Inoue
Yiyang Gong
Biafra Ahanonu
Hongkui Zeng
Haruhiko Bito
Mark J. Schnitzer
机构
[1] Stanford University,James H. Clark Center
[2] Stanford University,CNC Program
[3] Stanford University,Howard Hughes Medical Institute
[4] The University of Tokyo,Department of Neurochemistry, Graduate School of Medicine
[5] Allen Institute for Brain Science,Department of Pathogenic Biology, College of Basic Medicine
[6] Jilin University,Department of Bioengineering
[7] Stanford University School of Medicine,Department of Biomedical Engineering
[8] Duke University,undefined
来源
Nature Methods | 2019年 / 16卷
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摘要
Two-photon microscopy is a mainstay technique for imaging in scattering media and normally provides frame-acquisition rates of ~10–30 Hz. To track high-speed phenomena, we created a two-photon microscope with 400 illumination beams that collectively sample 95,000–211,000 µm2 areas at rates up to 1 kHz. Using this microscope, we visualized microcirculatory flow, fast venous constrictions and neuronal Ca2+ spiking with millisecond-scale timing resolution in the brains of awake mice.
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页码:1119 / 1122
页数:3
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