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Real-time scanning electron microscopy of unfixed tissue in the solution using a deformable and electron-transmissive film.


ABSTRACT: It is difficult to use scanning electron microscopy to observe the structure and movement of biological tissue immersed in the solution. To enable such observations, we created a highly deformable and electron-transmissive polyimide film that can withstand the pressure difference between the high-vacuum electron column and the atmospheric-pressure sample chamber. With this film, we used scanning electron microscopy to measure the intrinsic fine structure and movement of the contractile fibers of excised mouse heart immersed in physiological solutions. Our measurements revealed that the excised heart is a dynamic tissue that undergoes relaxation oscillation based on a three-dimensional force balance.

SUBMITTER: Shintani SA 

PROVIDER: S-EPMC9535786 | biostudies-literature | 2022 Oct

REPOSITORIES: biostudies-literature

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Real-time scanning electron microscopy of unfixed tissue in the solution using a deformable and electron-transmissive film.

Shintani Seine A SA   Yamaguchi Seiji S   Takadama Hiroaki H  

Microscopy (Oxford, England) 20221001 5


It is difficult to use scanning electron microscopy to observe the structure and movement of biological tissue immersed in the solution. To enable such observations, we created a highly deformable and electron-transmissive polyimide film that can withstand the pressure difference between the high-vacuum electron column and the atmospheric-pressure sample chamber. With this film, we used scanning electron microscopy to measure the intrinsic fine structure and movement of the contractile fibers of  ...[more]

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2023-06-21 | GSE202638 | GEO