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Optical gearbox enabled versatile multiscale high-throughput multiphoton functional imaging

Jianian Lin, Zongyue Cheng, Guang Yang, Meng Cui

2022Nature Communications18 citationsDOIOpen Access PDF

Abstract

To understand the function and mechanism of biological systems, it is crucial to observe the cellular dynamics at high spatiotemporal resolutions within live animals. The recent advances in genetically encoded function indicators have significantly improved the response rate to a near millisecond time scale. However, the widely employed in vivo imaging systems often lack the temporal solution to capture the fast biological dynamics. To broadly enable the capability of high-speed in vivo deep-tissue imaging, we developed an optical gearbox. As an add-on module, the optical gearbox can convert the common multiphoton imaging systems for versatile multiscale high-throughput imaging applications. In this work, we demonstrate in vivo 2D and 3D function imaging in mammalian brains at frame rates ranging from 50 to 1000 Hz. The optical gearbox's versatility and compatibility with the widely employed imaging components will be highly valuable to a variety of deep tissue imaging applications.

Topics & Concepts

MillisecondComputer scienceOptical imagingPreclinical imagingBiological imagingFrame rateThroughputDirect imagingArtificial intelligenceIn vivoPhysicsOpticsBiologyFluorescenceBiotechnologyAstronomyTelecommunicationsWirelessAdvanced Fluorescence Microscopy TechniquesCell Image Analysis TechniquesPhotoacoustic and Ultrasonic Imaging
Optical gearbox enabled versatile multiscale high-throughput multiphoton functional imaging | Litcius