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Millimeter field-of-view miniature two-photon microscopy for brain imaging in freely moving mice

Chunzhu Zhao, Yufei Zhu, Dong Zhang, Qiang Fu, Mingjie Pan, Runlong Wu, Aimin Wang, Heping Cheng

2023Optics Express21 citationsDOIOpen Access PDF

Abstract

Development of miniature two-photon microscopy (m2PM) has made it possible to observe fine structure and activity of neurons in the brain of freely moving animals. However, the imaging field-of-view of existing m2PM is still significantly smaller than that of miniature single-photon microscopy. Here we report that, through the design of low-magnification objective, large field-of-view scan lens and small tilt angle microscanner, a 2.5-g m2PM achieved a field-of-view of 1000 × 788 µm 2 , comparable to that of a typical single-photon miniscope. We demonstrated its capability by imaging neurons, dendrites and spines in the millimeter field-of-view, and simultaneous recording calcium activities, through a gradient-index lens, of approximately 400 neurons in the dorsal hippocampal CA1 in a freely moving mouse. Integrated with a detachable 1.2-g fast z-scanning module, it enables a 1000 × 788 × 500 µm 3 volumetric neuronal imaging in the cerebral cortex. Thus, millimeter FOV m2PM provides a powerful tool for deciphering neuronal population dynamics in experimental paradigms allowing for animal’s free movement.

Topics & Concepts

OpticsMicroscopyLens (geology)Hippocampal formationMillimeterTwo-photon excitation microscopyCalcium imagingTilt (camera)Field of viewPhysicsMaterials scienceNeuroscienceBiologyFluorescenceMetallurgyEngineeringCalciumMechanical engineeringAdvanced Fluorescence Microscopy TechniquesRetinal Development and DisordersNeuroinflammation and Neurodegeneration Mechanisms