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Large-scale deep tissue voltage imaging with targeted-illumination confocal microscopy

Sheng Xiao, W. J. Cunningham, Krishnakanth Kondabolu, Eric Lowet, Maria V. Moya, Rebecca A. Mount, Cara Ravasio, Emma Bortz, Dana Shaw, Michael N. Economo, Xue Han, Jérôme Mertz

2024Nature Methods32 citationsDOIOpen Access PDF

Abstract

Voltage imaging with cellular specificity has been made possible by advances in genetically encoded voltage indicators. However, the kilohertz rates required for voltage imaging lead to weak signals. Moreover, out-of-focus fluorescence and tissue scattering produce background that both undermines the signal-to-noise ratio and induces crosstalk between cells, making reliable in vivo imaging in densely labeled tissue highly challenging. We describe a microscope that combines the distinct advantages of targeted illumination and confocal gating while also maximizing signal detection efficiency. The resulting benefits in signal-to-noise ratio and crosstalk reduction are quantified experimentally and theoretically. Our microscope provides a versatile solution for enabling high-fidelity in vivo voltage imaging at large scales and penetration depths, which we demonstrate across a wide range of imaging conditions and different genetically encoded voltage indicator classes. In targeted-illumination confocal microscopy, the combination of targeted illumination with confocal detection allows one-photon voltage imaging across large fields of view with a high signal-to-noise ratio.

Topics & Concepts

ConfocalConfocal microscopyMicroscopeMicroscopyFluorescence-lifetime imaging microscopyMaterials scienceFluorescence microscopePreclinical imagingOpticsOptoelectronicsFluorescenceIn vivoPhysicsBiologyBiotechnologyAdvanced Fluorescence Microscopy TechniquesCell Image Analysis TechniquesNeuroscience and Neural Engineering
Large-scale deep tissue voltage imaging with targeted-illumination confocal microscopy | Litcius