Flexible solid immersion meniscus lens (SIMlens) approach for enhancing biological imaging of cleared samples

Tissue-clearing techniques have revolutionized the field of biological imaging by rendering biological specimens transparent and enabling inside optical detection. Light-sheet fluorescence microscopy (LSFM) is a powerful tool for three-dimensional imaging of large biological samples. Combining tissu...

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Veröffentlicht in:	Optics letters 2024-08, Vol.49 (15), p.4126
Hauptverfasser:	Feng, Wenyang, Zhao, Fang, Zhong, Fenghe, Zhao, Yuxuan, Fei, Peng
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Brain - diagnostic imaging Imaging, Three-Dimensional Lenses Mice Microscopy, Fluorescence - methods
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creator	Feng, Wenyang Zhao, Fang Zhong, Fenghe Zhao, Yuxuan Fei, Peng
description	Tissue-clearing techniques have revolutionized the field of biological imaging by rendering biological specimens transparent and enabling inside optical detection. Light-sheet fluorescence microscopy (LSFM) is a powerful tool for three-dimensional imaging of large biological samples. Combining tissue-clearing techniques with LSFM has advanced the efficient 3D visualization of these samples. A crucial challenge with LSFM is the requirement for the objective to operate within the clearing reagent, which can cause aberrations. To address this issue, we introduce a novel, to our knowledge, approach for the flexible design of the solid immersion refractive meniscus lens (SIMlens), facilitating the use of air objectives with cleared samples. Compared to the previous SIMlens, this method not only eliminates aberrations but also offers customized options for enhancing the numerical aperture and working distance of the objective lens, achieving at least a 10% improvement. We have demonstrated the feasibility of this new method using mouse brain samples.
doi_str_mv	10.1364/OL.528263
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subjects	Animals Brain - diagnostic imaging Imaging, Three-Dimensional Lenses Mice Microscopy, Fluorescence - methods
title	Flexible solid immersion meniscus lens (SIMlens) approach for enhancing biological imaging of cleared samples
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