Simultaneous visualisation of calcified bone microstructure and intracortical vasculature using synchrotron X-ray phase contrast-enhanced tomography
Simultaneous visualisation of calcified bone microstructure and intracortical vasculature using synchrotron X-ray phase contrast-enhanced tomography
3D imaging of the bone vasculature is of key importance in the understanding of skeletal disease. As blood vessels in bone are deeply encased in the calcified matrix, imaging techniques that are applicable to soft tissues are generally difficult or impossible to apply to the skeleton. While canals in cortical bone can readily be identified and characterised in X-ray computed tomographic data in 3D, the soft tissue comprising blood vessels that are putatively contained within the canal structures does not provide sufficient image contrast necessary for image segmentation. Here, we report an approach that allows for rapid, simultaneous visualisation of calcified bone tissue and the vasculature within the calcified bone matrix. Using synchrotron X-ray phase contrast-enhanced tomography we show exemplar data with intracortical capillaries uncovered at sub-micrometre level without the need for any staining or contrast agent. Using the tibiofibular junction of 15 week-old C57BL/6 mice post mortem, we show the bone cortical porosity simultaneously along with the soft tissue comprising the vasculature. Validation with histology confirms that we can resolve individual capillaries. This imaging approach could be easily applied to other skeletal sites and transgenic models, and could improve our understanding of the role the vasculature plays in bone disease.
Nunez, Juan A.
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Goring, Alice
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Hesse, Eric
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Thurner, Philipp J.
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Schneider, Philipp
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Clarkin, Claire E.
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Nunez, Juan A.
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Goring, Alice
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Hesse, Eric
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Thurner, Philipp J.
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Schneider, Philipp
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Clarkin, Claire E.
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Nunez, Juan A., Goring, Alice, Hesse, Eric, Thurner, Philipp J., Schneider, Philipp and Clarkin, Claire E.
(2017)
Simultaneous visualisation of calcified bone microstructure and intracortical vasculature using synchrotron X-ray phase contrast-enhanced tomography.
Scientific Reports, 7, [13289].
(doi:10.1038/s41598-017-13632-5).
Abstract
3D imaging of the bone vasculature is of key importance in the understanding of skeletal disease. As blood vessels in bone are deeply encased in the calcified matrix, imaging techniques that are applicable to soft tissues are generally difficult or impossible to apply to the skeleton. While canals in cortical bone can readily be identified and characterised in X-ray computed tomographic data in 3D, the soft tissue comprising blood vessels that are putatively contained within the canal structures does not provide sufficient image contrast necessary for image segmentation. Here, we report an approach that allows for rapid, simultaneous visualisation of calcified bone tissue and the vasculature within the calcified bone matrix. Using synchrotron X-ray phase contrast-enhanced tomography we show exemplar data with intracortical capillaries uncovered at sub-micrometre level without the need for any staining or contrast agent. Using the tibiofibular junction of 15 week-old C57BL/6 mice post mortem, we show the bone cortical porosity simultaneously along with the soft tissue comprising the vasculature. Validation with histology confirms that we can resolve individual capillaries. This imaging approach could be easily applied to other skeletal sites and transgenic models, and could improve our understanding of the role the vasculature plays in bone disease.
Text
s41598-017-13632-5
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Accepted/In Press date: 27 September 2017
e-pub ahead of print date: 16 October 2017
Identifiers
Local EPrints ID: 414961
URI: http://eprints.soton.ac.uk/id/eprint/414961
ISSN: 2045-2322
PURE UUID: e2f7deb6-480c-446f-9c85-3d19990b8a07
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Date deposited: 18 Oct 2017 16:30
Last modified: 16 Mar 2024 04:17
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Author:
Juan A. Nunez
Author:
Alice Goring
Author:
Eric Hesse
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