Three-photon neuronal imaging in deep mouse brain
Tianyu Wang, Chris Xu
Abstract
Three-photon microscopy has been increasingly adopted for probing neural activities beyond the typical two-photon imaging depth. In this review, we outline the unique properties that differentiate three-photon microscopy from two-photon microscopy for in vivo imaging in biological samples, especially in the mouse brain. We present a systematic summary of the optimization of three-photon imaging parameters for neural imaging, based on their effects on calcium imaging quality and perturbation to brain tissues. Furthermore, we review the existing techniques for volumetric imaging and discuss their prospects in mesoscale three-photon imaging in deep tissue.
Topics & Concepts
Two-photon excitation microscopyMicroscopyNeuroimagingCalcium imagingPhotonMultiphoton fluorescence microscopePreclinical imagingNeuroscienceOpticsBiomedical engineeringPhysicsMaterials scienceBiologyIn vivoMedicineFluorescence microscopeCalciumFluorescenceMetallurgyBiotechnologyAdvanced Fluorescence Microscopy TechniquesCell Image Analysis TechniquesRetinal Development and Disorders