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Correlative three-dimensional X-ray histology (3D-XRH) as a tool for quantifying mammalian placental structure

Correlative three-dimensional X-ray histology (3D-XRH) as a tool for quantifying mammalian placental structure
Correlative three-dimensional X-ray histology (3D-XRH) as a tool for quantifying mammalian placental structure

Mammalian placentas exhibit unparalleled structural diversity, despite sharing a common ancestor and principal functions. The bulk of structural studies in placental research has used two-dimensional (2D) histology sectioning, allowing significant advances in our understanding of mammalian placental structure. However, 2D histology sectioning may be limited if it does not provide accurate information of three-dimensional (3D) tissue architecture. Here, we propose correlative 3D X-ray histology (3D-XRH) as a tool with great potential for resolving mammalian placental structures. 3D-XRH involves scanning a formaldehyde-fixed, paraffin embedded (FFPE) tissue block with 3D X-ray microscopy (microCT) prior to histological sectioning to generate a 3D image volume of the embedded tissue piece. The subsequent 2D histology sections can then be correlated back into the microCT image volume to couple histology staining (or immunolabelling) with 3D tissue architecture. 3D-XRH is non-destructive and requires no additional sample preparation than standard FFPE histology sectioning, however the image volume provides 3D morphometric data and can be used to guide microtomy. As such, 3D-XRH introduces additional information to standard histological workflows with minimal effort or disruption. Using primary examples from porcine, bovine, equine, and canine placental samples, we demonstrate the application of 3D-XRH to quantifying placental structure as well as discussing the limitations and future directions of the methodology. The wealth of information derived from 2D histological sectioning in the biomedical, veterinary, and comparative reproductive sciences provides a rich foundation from which 3D-XRH can build on to advance the study of placental structure and function.

Comparative, Histology, Placenta, Structure, microCT
0143-4004
Laundon, Davis
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Lane, Thomas
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Katsamenis, Orestis L.
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Norman, Jeanette
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Brewer, Lois
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Harris, Shelley E.
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Basford, Philip J.
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Shotton, Justine
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Free, Danielle
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Constable-Dakeyne, Georgina
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Gostling, Neil J.
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Chavatte-Palmer, Pascale
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Lewis, Rohan M.
caaeb97d-ea69-4f7b-8adb-5fa25e2d3502
Laundon, Davis
b2ba5687-d949-47dd-b84f-fb3c0c032550
Lane, Thomas
f90792c1-7fde-4939-a0a6-f23d51c5ca5f
Katsamenis, Orestis L.
8553e7c3-d860-4b7a-a883-abf6c0c4b438
Norman, Jeanette
b4fa0e8e-3b6e-458b-af1e-2f55c651639a
Brewer, Lois
e563f38a-f762-40ef-82c5-96d842941802
Harris, Shelley E.
6efe8f50-354e-48ea-889e-c2d8293bb16a
Basford, Philip J.
d65c2fe2-adab-4d34-a346-af9a7164e034
Shotton, Justine
431d36c4-045b-462f-9043-67cc34f02ba7
Free, Danielle
9e81c878-fda4-430d-8419-5e4bc1333e9f
Constable-Dakeyne, Georgina
a4427a52-9021-4e8d-b80b-d14d75e4df11
Gostling, Neil J.
4840aa40-cb6c-4112-a0b9-694a869523fc
Chavatte-Palmer, Pascale
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Lewis, Rohan M.
caaeb97d-ea69-4f7b-8adb-5fa25e2d3502

Laundon, Davis, Lane, Thomas, Katsamenis, Orestis L., Norman, Jeanette, Brewer, Lois, Harris, Shelley E., Basford, Philip J., Shotton, Justine, Free, Danielle, Constable-Dakeyne, Georgina, Gostling, Neil J., Chavatte-Palmer, Pascale and Lewis, Rohan M. (2024) Correlative three-dimensional X-ray histology (3D-XRH) as a tool for quantifying mammalian placental structure. Placenta. (doi:10.1016/j.placenta.2024.07.312).

Record type: Article

Abstract

Mammalian placentas exhibit unparalleled structural diversity, despite sharing a common ancestor and principal functions. The bulk of structural studies in placental research has used two-dimensional (2D) histology sectioning, allowing significant advances in our understanding of mammalian placental structure. However, 2D histology sectioning may be limited if it does not provide accurate information of three-dimensional (3D) tissue architecture. Here, we propose correlative 3D X-ray histology (3D-XRH) as a tool with great potential for resolving mammalian placental structures. 3D-XRH involves scanning a formaldehyde-fixed, paraffin embedded (FFPE) tissue block with 3D X-ray microscopy (microCT) prior to histological sectioning to generate a 3D image volume of the embedded tissue piece. The subsequent 2D histology sections can then be correlated back into the microCT image volume to couple histology staining (or immunolabelling) with 3D tissue architecture. 3D-XRH is non-destructive and requires no additional sample preparation than standard FFPE histology sectioning, however the image volume provides 3D morphometric data and can be used to guide microtomy. As such, 3D-XRH introduces additional information to standard histological workflows with minimal effort or disruption. Using primary examples from porcine, bovine, equine, and canine placental samples, we demonstrate the application of 3D-XRH to quantifying placental structure as well as discussing the limitations and future directions of the methodology. The wealth of information derived from 2D histological sectioning in the biomedical, veterinary, and comparative reproductive sciences provides a rich foundation from which 3D-XRH can build on to advance the study of placental structure and function.

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Accepted/In Press date: 30 July 2024
e-pub ahead of print date: 31 July 2024
Keywords: Comparative, Histology, Placenta, Structure, microCT
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Identifiers

Local EPrints ID: 493378
URI: http://eprints.soton.ac.uk/id/eprint/493378
DOI: doi:10.1016/j.placenta.2024.07.312
ISSN: 0143-4004
PURE UUID: 1ffe0ba3-0e72-4c91-aa3e-c9c14ac3c3f3
ORCID for Davis Laundon: ORCID iD orcid.org/0000-0002-1508-664X
ORCID for Orestis L. Katsamenis: ORCID iD orcid.org/0000-0003-4367-4147
ORCID for Lois Brewer: ORCID iD orcid.org/0009-0001-9000-1124
ORCID for Neil J. Gostling: ORCID iD orcid.org/0000-0002-5960-7769
ORCID for Rohan M. Lewis: ORCID iD orcid.org/0000-0003-4044-9104

Catalogue record

Date deposited: 02 Sep 2024 16:32
Last modified: 03 Sep 2024 02:11

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Contributors

Author: Davis Laundon ORCID iD
Author: Thomas Lane
Author: Orestis L. Katsamenis ORCID iD
Author: Jeanette Norman
Author: Lois Brewer ORCID iD
Author: Shelley E. Harris
Author: Philip J. Basford
Author: Justine Shotton
Author: Danielle Free
Author: Georgina Constable-Dakeyne
Author: Neil J. Gostling ORCID iD
Author: Pascale Chavatte-Palmer
Author: Rohan M. Lewis ORCID iD

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