Litcius/Paper detail

Deep tissue super-resolution imaging with adaptive optical two-photon multifocal structured illumination microscopy

Chenshuang Zhang, Bin Yu, Fangrui Lin, Soham Samanta, Huanhuan Yu, Wei Zhang, Yingying Jing, Chunfeng Shang, Danying Lin, Ke Si, Wei Gong, Junle Qu

2023PhotoniX47 citationsDOIOpen Access PDF

Abstract

Abstract Visualization of axons and dendritic spines is crucial in neuroscience research. However, traditional microscopy is limited by diffraction-limited resolution and shallow imaging depth, making it difficult to study neuronal dynamics. Two-photon multifocal structured illumination microscopy (2P-MSIM) provides super-resolution imaging along with a reasonably good penetration, but it is vulnerable to optical aberrations in deep tissues. Herein we present a novel non-inertial scanning 2P-MSIM system incorporated with adaptive optics (AO) which allows for super-resolution imaging with effective aberration correction. Our strategy is designed to correct both laser and fluorescence paths simultaneously using a spatial light modulator and a deformable mirror respectively, providing better results than the individual path corrections. The successful implementation of adaptive optical two-photon multifocal structured illumination microscopy (AO 2P-MSIM) has allowed for the super-resolution imaging of neuronal structures in a mouse brain slice at great depths and dynamic morphological characteristics of zebrafish motoneurons in vivo.

Topics & Concepts

MicroscopyOpticsTwo-photon excitation microscopyOptical sectioningResolution (logic)Adaptive opticsMaterials scienceLight sheet fluorescence microscopySuper-resolution microscopyImage resolutionBiomedical engineeringPhysicsComputer scienceScanning confocal electron microscopyFluorescenceArtificial intelligenceMedicineAdvanced Fluorescence Microscopy TechniquesCell Image Analysis TechniquesOptical Coherence Tomography Applications