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Large-scale high-throughput 3D culture, imaging, and analysis of cell spheroids using microchip-enhanced light-sheet microscopy

Tingting Zhu, Jun Nie, Tingting Yu, Dan Zhu, Yanyi Huang, Zaozao Chen, Zhongze Gu, Jiang Tang, Dongyu Li, Peng Fei

2023Biomedical Optics Express17 citationsDOIOpen Access PDF

Abstract

Light sheet microscopy combined with a microchip is an emerging tool in biomedical research that notably improves efficiency. However, microchip-enhanced light-sheet microscopy is limited by noticeable aberrations induced by the complex refractive indices in the chip. Herein, we report a droplet microchip that is specifically engineered to be capable of large-scale culture of 3D spheroids (over 600 samples per chip) and has a polymer index matched to water (difference <1%). When combined with a lab-built open-top light-sheet microscope, this microchip-enhanced microscopy technique allows 3D time-lapse imaging of the cultivated spheroids with ∼2.5-µm single-cell resolution and a high throughput of ∼120 spheroids per minute. This technique was validated by a comparative study on the proliferation and apoptosis rates of hundreds of spheroids with or without treatment with the apoptosis-inducing drug Staurosporine.

Topics & Concepts

MicroscopySpheroidLight sheet fluorescence microscopyMaterials scienceStaurosporineThroughputBiomedical engineering3D cell cultureOpticsChemistryCell cultureScanning confocal electron microscopyCellComputer scienceBiologyMedicineTelecommunicationsBiochemistryWirelessGeneticsEnzymePhysicsProtein kinase CAdvanced Fluorescence Microscopy TechniquesCell Image Analysis TechniquesAdvanced Biosensing Techniques and Applications
Large-scale high-throughput 3D culture, imaging, and analysis of cell spheroids using microchip-enhanced light-sheet microscopy | Litcius