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Transmission electron microscopy of tissue prepared for scanning electron microscopy by ethanol-cryofracturing.

Transmission electron microscopy of tissue prepared for scanning electron microscopy by... Tissue processed for scanning electron microscopy by ethanol-cryofracturing combined with critical point drying was embedded and sectioned for transmission electron microscopy. Study of specimens cut in a plane passing through the fracture edge indicated that preservation of cellular fine structure of fractured cells was excellent. Even at the most peripheral edge of the fracture there was no evidence that movement of cytoplasmic components occurred to distort the original structural organization of fractured cells. Lack of cytoplasmic detail in ethanol-cryofractographs has been due more to the nature of the fracturing of the tissue and to the obscuring effects of the metal coating than to structural deformation at the fracture edge or to limitations in resolving power of the scanning electron microscope used. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Stain technology Pubmed

Transmission electron microscopy of tissue prepared for scanning electron microscopy by ethanol-cryofracturing.

Humphreys, W J; Spurlock, B O; Johnson, J S
Stain technology , Volume 50 (2): 7 – Sep 13, 1975
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Transmission electron microscopy of tissue prepared for scanning electron microscopy by ethanol-cryofracturing.


Abstract

Tissue processed for scanning electron microscopy by ethanol-cryofracturing combined with critical point drying was embedded and sectioned for transmission electron microscopy. Study of specimens cut in a plane passing through the fracture edge indicated that preservation of cellular fine structure of fractured cells was excellent. Even at the most peripheral edge of the fracture there was no evidence that movement of cytoplasmic components occurred to distort the original structural organization of fractured cells. Lack of cytoplasmic detail in ethanol-cryofractographs has been due more to the nature of the fracturing of the tissue and to the obscuring effects of the metal coating than to structural deformation at the fracture edge or to limitations in resolving power of the scanning electron microscope used.

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ISSN
0038-9153
DOI
10.3109/10520297509117045
pmid
1145653

Abstract

Tissue processed for scanning electron microscopy by ethanol-cryofracturing combined with critical point drying was embedded and sectioned for transmission electron microscopy. Study of specimens cut in a plane passing through the fracture edge indicated that preservation of cellular fine structure of fractured cells was excellent. Even at the most peripheral edge of the fracture there was no evidence that movement of cytoplasmic components occurred to distort the original structural organization of fractured cells. Lack of cytoplasmic detail in ethanol-cryofractographs has been due more to the nature of the fracturing of the tissue and to the obscuring effects of the metal coating than to structural deformation at the fracture edge or to limitations in resolving power of the scanning electron microscope used.

Journal

Stain technologyPubmed

Published: Sep 13, 1975

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