Fluoropolymer Nanosheet as a Wrapping Mount for High‐Quality Tissue Imaging

In the field of biological microscopy technology, it is still a practical challenge to obtain high‐quality tissue images, due to the tissue desiccation that occurs during observations without an effective sample mounting. Inspired by the use of plastic food wrap, this study proposes the use of polym...

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Veröffentlicht in:	Advanced materials (Weinheim) 2017-10, Vol.29 (37), p.n/a
Hauptverfasser:	Zhang, Hong, Masuda, Ami, Kawakami, Ryosuke, Yarinome, Kenji, Saito, Riku, Nagase, Yu, Nemoto, Tomomi, Okamura, Yosuke
Format:	Artikel
Sprache:	eng
Schlagworte:	Adhesion tests Adhesive strength agarose embedding Animals Brain Fixation Fluoropolymers Hydrophobicity Image quality Materials science Mice Microscopy Mounting Nanosheets Nanostructures Polyethylene Polymer films sample mounting Sepharose Shrinkage Spatial resolution Thin films tissue imaging Water wrapping
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container_title	Advanced materials (Weinheim)
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creator	Zhang, Hong Masuda, Ami Kawakami, Ryosuke Yarinome, Kenji Saito, Riku Nagase, Yu Nemoto, Tomomi Okamura, Yosuke
description	In the field of biological microscopy technology, it is still a practical challenge to obtain high‐quality tissue images, due to the tissue desiccation that occurs during observations without an effective sample mounting. Inspired by the use of plastic food wrap, this study proposes the use of polymer thin films (also known as nanosheets) to fix the tissue samples. Water‐repellent nanosheets composed of the amorphous fluoropolymer CYTOP are prepared with adjustable thicknesses and their hydrophobicity, transparency, and adhesion strength are evaluated. They show excellent water‐retention effect and work well for sample fixation. By wrapping cleared mouse brain slices with a 133 nm thick CYTOP nanosheet, this study achieves high spatial resolution neuron images while scanning over a large area for a long period of time. No visible artifacts arising from sample shrinkage can be detected. This study also expects that nanosheet wrapping could be effective over a longer time span by combination with conventional agarose embedding. Water‐repellent nanosheets composed of amorphous fluoropolymer CYTOP are prepared, which shows excellent water retention and sample fixation properties. By wrapping cleared mouse brain slices with CYTOP nanosheet, high spatial resolution images are achieved over a large scan area. It is also expected that nanosheet wrapping could be effective over a longer time span by combination with agarose embedding.
doi_str_mv	10.1002/adma.201703139
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Inspired by the use of plastic food wrap, this study proposes the use of polymer thin films (also known as nanosheets) to fix the tissue samples. Water‐repellent nanosheets composed of the amorphous fluoropolymer CYTOP are prepared with adjustable thicknesses and their hydrophobicity, transparency, and adhesion strength are evaluated. They show excellent water‐retention effect and work well for sample fixation. By wrapping cleared mouse brain slices with a 133 nm thick CYTOP nanosheet, this study achieves high spatial resolution neuron images while scanning over a large area for a long period of time. No visible artifacts arising from sample shrinkage can be detected. This study also expects that nanosheet wrapping could be effective over a longer time span by combination with conventional agarose embedding. Water‐repellent nanosheets composed of amorphous fluoropolymer CYTOP are prepared, which shows excellent water retention and sample fixation properties. By wrapping cleared mouse brain slices with CYTOP nanosheet, high spatial resolution images are achieved over a large scan area. 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By wrapping cleared mouse brain slices with CYTOP nanosheet, high spatial resolution images are achieved over a large scan area. 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subjects	Adhesion tests Adhesive strength agarose embedding Animals Brain Fixation Fluoropolymers Hydrophobicity Image quality Materials science Mice Microscopy Mounting Nanosheets Nanostructures Polyethylene Polymer films sample mounting Sepharose Shrinkage Spatial resolution Thin films tissue imaging Water wrapping
title	Fluoropolymer Nanosheet as a Wrapping Mount for High‐Quality Tissue Imaging
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