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Photonic neural probe enabled microendoscopes for light-sheet light-field computational fluorescence brain imaging

Peisheng Ding, Hannes Wahn, Fu‐Der Chen, Jianfeng Li, Xin Mu, Andrei Stalmashonak, Xianshu Luo, Guo‐Qiang Lo, Joyce K. S. Poon, Wesley D. Sacher

2024Neurophotonics12 citationsDOIOpen Access PDF

Abstract

SignificanceLight-sheet fluorescence microscopy is widely used for high-speed, high-contrast, volumetric imaging. Application of this technique to in vivo brain imaging in non-transparent organisms has been limited by the geometric constraints of conventional light-sheet microscopes, which require orthogonal fluorescence excitation and collection objectives. We have recently demonstrated implantable photonic neural probes that emit addressable light sheets at depth in brain tissue, miniaturizing the excitation optics. Here, we propose a microendoscope consisting of a light-sheet neural probe packaged together with miniaturized fluorescence collection optics based on an image fiber bundle for lensless, light-field, computational fluorescence imaging.AimFoundry-fabricated, silicon-based, light-sheet neural probes can be packaged together with commercially available image fiber bundles to form microendoscopes for light-sheet light-field fluorescence imaging at depth in brain tissue.ApproachPrototype microendoscopes were developed using light-sheet neural probes with five addressable sheets and image fiber bundles. Fluorescence imaging with the microendoscopes was tested with fluorescent beads suspended in agarose and fixed mouse brain tissue.ResultsVolumetric light-sheet light-field fluorescence imaging was demonstrated using the microendoscopes. Increased imaging depth and enhanced reconstruction accuracy were observed relative to epi-illumination light-field imaging using only a fiber bundle.ConclusionsOur work offers a solution toward volumetric fluorescence imaging of brain tissue with a compact size and high contrast. The proof-of-concept demonstrations herein illustrate the operating principles and methods of the imaging approach, providing a foundation for future investigations of photonic neural probe enabled microendoscopes for deep-brain fluorescence imaging in vivo.

Topics & Concepts

Light sheet fluorescence microscopyFluorescence-lifetime imaging microscopyMaterials scienceFluorescenceOpticsMicroscopyLight fieldOptical fiberFluorescence microscopeBright-field microscopyPhysicsAdvanced Fluorescence Microscopy TechniquesPhotoreceptor and optogenetics researchOptical Imaging and Spectroscopy Techniques
Photonic neural probe enabled microendoscopes for light-sheet light-field computational fluorescence brain imaging | Litcius