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From mice to rhinos: whole-organ quantification of 3D mammalian placental structure using correlative multiscale imaging

From mice to rhinos: whole-organ quantification of 3D mammalian placental structure using correlative multiscale imaging
From mice to rhinos: whole-organ quantification of 3D mammalian placental structure using correlative multiscale imaging

The mammalian placenta displays extraordinary structural diversity across scales of measurement, yet the quantitative basis and functional consequences of this variation remain poorly understood. Traditional approaches rely on qualitative categories or simple metrics such as length or depth which obscure the complexity of three-dimensional (3D) tissue architecture. Here, we review methods for quantifying whole-organ placental volume, surface area, and vascular organisation, highlighting trade-offs between speed, expense, labour, precision, scalability, destructivity, and specificity. We then demonstrate how correlative multiscale 3D imaging techniques can overcome these limitations, enabling whole-organ quantification across species spanning several orders of magnitude in placental volume-from mouse to rhinoceros. Using integrated workflows that combine X-ray microfocus tomography (microCT), light (H&E histology), and electron (SBF-SEM) microscopy, we generate quantitative structural datasets across spatial scales. In a mouse placenta, correlative 3D X-ray histology (3D-XRH) links histological features directly to their 3D tissue context. In a human placenta, multimodal imaging integrates whole-organ microCT with correlative X-ray and electron microscopy (CXEM) to quantify the total exchange surface area, bridging organ-scale structure and ultrastructural detail. Finally, using placentas from giraffes and rhinos, we show how microCT can be used to quantify the whole organ structure of placentas from even very large mammals, quantifying metrics such as cotyledon volume distribution and blood vessel architecture. Together, these examples illustrate the power of correlative multiscale 3D imaging to resolve mammalian placental structure, bridging cellular and organ-level organisation. This integrative approach provides a unified framework for quantitative comparative placentation, linking structural diversity to physiological function.

0143-4004
Laundon, Davis
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Proudley, Ella
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Pennington, Avery
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Grewal, Aaron
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Basford, Philip J
Katsamenis, Orestis L.
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Thompson, James
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Goggin, Patricia
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Norman, Jeanette
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Adebo, Dolapo
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Kersley, Samuel
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Umapathy, Anandita
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Nesbitt, Lottie
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Constable-Dakeyne, Georgina
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Irvine, Wendy
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Gostling, Neil J.
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Chavatte-Palmer, Pascale
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Sengers, Bram G.
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Darrow, Michele C.
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Lewis, Rohan M.
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Laundon, Davis
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Proudley, Ella
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Pennington, Avery
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Grewal, Aaron
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Basford, Philip J
Katsamenis, Orestis L.
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Thompson, James
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Goggin, Patricia
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Norman, Jeanette
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Adebo, Dolapo
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Kersley, Samuel
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Umapathy, Anandita
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Nesbitt, Lottie
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Constable-Dakeyne, Georgina
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Irvine, Wendy
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Gostling, Neil J.
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Chavatte-Palmer, Pascale
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Sengers, Bram G.
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Darrow, Michele C.
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Lewis, Rohan M.
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Laundon, Davis, Proudley, Ella, Pennington, Avery, Grewal, Aaron, Basford, Philip J, Katsamenis, Orestis L., Thompson, James, Goggin, Patricia, Norman, Jeanette, Adebo, Dolapo, Kersley, Samuel, Umapathy, Anandita, Nesbitt, Lottie, Constable-Dakeyne, Georgina, Irvine, Wendy, Gostling, Neil J., Chavatte-Palmer, Pascale, Sengers, Bram G., Darrow, Michele C. and Lewis, Rohan M. (2026) From mice to rhinos: whole-organ quantification of 3D mammalian placental structure using correlative multiscale imaging. Placenta. (doi:10.1016/j.placenta.2026.02.006).

Record type: Article

Abstract

The mammalian placenta displays extraordinary structural diversity across scales of measurement, yet the quantitative basis and functional consequences of this variation remain poorly understood. Traditional approaches rely on qualitative categories or simple metrics such as length or depth which obscure the complexity of three-dimensional (3D) tissue architecture. Here, we review methods for quantifying whole-organ placental volume, surface area, and vascular organisation, highlighting trade-offs between speed, expense, labour, precision, scalability, destructivity, and specificity. We then demonstrate how correlative multiscale 3D imaging techniques can overcome these limitations, enabling whole-organ quantification across species spanning several orders of magnitude in placental volume-from mouse to rhinoceros. Using integrated workflows that combine X-ray microfocus tomography (microCT), light (H&E histology), and electron (SBF-SEM) microscopy, we generate quantitative structural datasets across spatial scales. In a mouse placenta, correlative 3D X-ray histology (3D-XRH) links histological features directly to their 3D tissue context. In a human placenta, multimodal imaging integrates whole-organ microCT with correlative X-ray and electron microscopy (CXEM) to quantify the total exchange surface area, bridging organ-scale structure and ultrastructural detail. Finally, using placentas from giraffes and rhinos, we show how microCT can be used to quantify the whole organ structure of placentas from even very large mammals, quantifying metrics such as cotyledon volume distribution and blood vessel architecture. Together, these examples illustrate the power of correlative multiscale 3D imaging to resolve mammalian placental structure, bridging cellular and organ-level organisation. This integrative approach provides a unified framework for quantitative comparative placentation, linking structural diversity to physiological function.

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Accepted/In Press date: 7 February 2026
e-pub ahead of print date: 9 February 2026
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Identifiers

Local EPrints ID: 510157
URI: http://eprints.soton.ac.uk/id/eprint/510157
DOI: doi:10.1016/j.placenta.2026.02.006
ISSN: 0143-4004
PURE UUID: e6f01fc2-857f-44ac-90c5-31975e7eb30d
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 James Thompson: ORCID iD orcid.org/0000-0002-9285-1317
ORCID for Anandita Umapathy: ORCID iD orcid.org/0000-0002-7248-5284
ORCID for Neil J. Gostling: ORCID iD orcid.org/0000-0002-5960-7769
ORCID for Bram G. Sengers: ORCID iD orcid.org/0000-0001-5859-6984
ORCID for Rohan M. Lewis: ORCID iD orcid.org/0000-0003-4044-9104

Catalogue record

Date deposited: 19 Mar 2026 17:37
Last modified: 20 Mar 2026 03:12

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Contributors

Author: Davis Laundon ORCID iD
Author: Ella Proudley
Author: Avery Pennington
Author: Aaron Grewal
Author: Philip J Basford
Author: Orestis L. Katsamenis ORCID iD
Author: James Thompson ORCID iD
Author: Patricia Goggin
Author: Jeanette Norman
Author: Dolapo Adebo
Author: Samuel Kersley
Author: Anandita Umapathy ORCID iD
Author: Lottie Nesbitt
Author: Georgina Constable-Dakeyne
Author: Wendy Irvine
Author: Neil J. Gostling ORCID iD
Author: Pascale Chavatte-Palmer
Author: Bram G. Sengers ORCID iD
Author: Michele C. Darrow
Author: Rohan M. Lewis ORCID iD

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