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X-ray phase microtomography with a single grating for high-throughput investigations of biological tissue

X-ray phase microtomography with a single grating for high-throughput investigations of biological tissue
X-ray phase microtomography with a single grating for high-throughput investigations of biological tissue
The high-throughput 3D visualisation of biological specimens is essential for studying diseases and developmental disorders. It requires imaging methods that deliver high-contrast, high-resolution volumetric information at short sample preparation and acquisition times. Here we show that X-ray phase-contrast tomography using a single grating can provide a powerful alternative to commonly employed techniques, such as high-resolution episcopic microscopy (HREM). We present the phase tomography of a mouse embryo in paraffin obtained with an X-ray single-grating interferometer at I13-2 Beamline at Diamond Light Source and discuss the results in comparison with HREM measurements. The excellent contrast and quantitative density information achieved non-destructively and without staining using a simple, robust setup make X-ray single-grating interferometry an optimum candidate for high-throughput imaging of biological specimens as an alternative for existing methods like HREM.
2156-7085
1257-1270
Zdora, Marie-Christine
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Vila-Comamala, Joan
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Schulz, Georg
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Khimchenko, Anna
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Hipp, Alexander
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Cook, Andrew C.
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Dilg, Daniel
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David, Christian
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Grunzweig, Christian
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Rau, Christoph
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Thibault, Pierre
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Zanette, Irene
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Zdora, Marie-Christine
cea26261-9f86-4fa1-9122-2371a3818563
Vila-Comamala, Joan
db3f531c-b3b1-497c-88b6-d4c1a0beab26
Schulz, Georg
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Khimchenko, Anna
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Hipp, Alexander
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Cook, Andrew C.
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Dilg, Daniel
484a8b19-a980-4b88-8fb0-e1c59732778a
David, Christian
0725e4ff-9343-435f-a450-475b5e4768cb
Grunzweig, Christian
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Rau, Christoph
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Thibault, Pierre
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Zanette, Irene
39ee899c-0aae-4fac-aec6-826f848a8022

Zdora, Marie-Christine, Vila-Comamala, Joan, Schulz, Georg, Khimchenko, Anna, Hipp, Alexander, Cook, Andrew C., Dilg, Daniel, David, Christian, Grunzweig, Christian, Rau, Christoph, Thibault, Pierre and Zanette, Irene (2017) X-ray phase microtomography with a single grating for high-throughput investigations of biological tissue. Biomedical Optics Express, 8 (2), 1257-1270. (doi:10.1364/BOE.8.001257).

Record type: Article

Abstract

The high-throughput 3D visualisation of biological specimens is essential for studying diseases and developmental disorders. It requires imaging methods that deliver high-contrast, high-resolution volumetric information at short sample preparation and acquisition times. Here we show that X-ray phase-contrast tomography using a single grating can provide a powerful alternative to commonly employed techniques, such as high-resolution episcopic microscopy (HREM). We present the phase tomography of a mouse embryo in paraffin obtained with an X-ray single-grating interferometer at I13-2 Beamline at Diamond Light Source and discuss the results in comparison with HREM measurements. The excellent contrast and quantitative density information achieved non-destructively and without staining using a simple, robust setup make X-ray single-grating interferometry an optimum candidate for high-throughput imaging of biological specimens as an alternative for existing methods like HREM.

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boe-8-2-1257 - Version of Record
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Accepted/In Press date: 13 January 2017
e-pub ahead of print date: 31 January 2017
Published date: 1 February 2017

Identifiers

Local EPrints ID: 430998
URI: http://eprints.soton.ac.uk/id/eprint/430998
DOI: doi:10.1364/BOE.8.001257
ISSN: 2156-7085
PURE UUID: 3f9d772c-df77-40d4-9e9e-9d084f528d33
ORCID for Pierre Thibault: ORCID iD orcid.org/0000-0003-1278-8846

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Date deposited: 21 May 2019 16:30
Last modified: 16 Mar 2024 01:51

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Contributors

Author: Marie-Christine Zdora
Author: Joan Vila-Comamala
Author: Georg Schulz
Author: Anna Khimchenko
Author: Alexander Hipp
Author: Andrew C. Cook
Author: Daniel Dilg
Author: Christian David
Author: Christian Grunzweig
Author: Christoph Rau
Author: Pierre Thibault ORCID iD
Author: Irene Zanette

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