Tubule and microbranch variations in human dentine: a quantitative 3D study with serial block-face scanning electron microscopy
Tubule and microbranch variations in human dentine: a quantitative 3D study with serial block-face scanning electron microscopy
Objective: microbranches exist within dentine, providing a network of fluid filled connections between tubules. This study used serial block-face scanning electron microscopy to generate 3D volumes of dentine from different tooth locations, allowing for investigations of the microbranch morphology, the microbranch network characteristics and regional variations in the tooth.
Methods: 3 human teeth were sectioned to generate 21 dentine samples extracted from 7 identical regions of interest around the tooth. Serial block-face scanning electron microscopy was performed using a Gatan 3View, a pixel size of 10nm, and a field of view of 20.48µm x 20.48µm. Tubules and microbranches were automatically segmented and the following quantified: tubule diameter and density; microbranch diameter, density, and connectivity; tissue porosity.
Results: the microbranches were successfully captured in sufficient resolution to generate 3D images. The microbranches move tortuously through the intertubular dentine and travelled a variety of distances before connecting to other tubules. The microbranch density varied by location, with more found in areas of lower tubule density. Microbranches significantly increased tissue porosity (p < 0.001). Microbranch diameter did not vary regionally, with most approximately 140-210nm, regardless of sample location. Tubule density and diameter varied radially – both largest closest to the pulp cavity, then decreasing to the dentinoenamel junction.
Conclusions: this study provides new three-dimensional insight into the morphology and network of the dentinal microbranch network, demonstrating a variability in the density of the microbranches with location around the tooth and a significant increase in tissue porosity.
Harding, Bethany
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Goggin, Patricia
ae6ef405-3ad5-4485-a3d5-46a736b90544
Thompson, James
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Rankin, Kathryn E.
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Schneider, Philipp
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Cook, Richard
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Harding, Bethany
08f09e1c-90a6-4e40-82f2-58dd305ed9c4
Goggin, Patricia
ae6ef405-3ad5-4485-a3d5-46a736b90544
Thompson, James
a0a1e940-d720-47de-81d7-ebcd48738239
Rankin, Kathryn E.
d9516566-0ad8-473d-b99b-4683c663a2b7
Schneider, Philipp
a810f925-4808-44e4-8a4a-a51586f9d7ad
Cook, Richard
06f8322d-81be-4f82-9326-19e55541c78f
Harding, Bethany, Goggin, Patricia, Thompson, James, Rankin, Kathryn E., Schneider, Philipp and Cook, Richard
(2026)
Tubule and microbranch variations in human dentine: a quantitative 3D study with serial block-face scanning electron microscopy.
Journal of Microscopy.
(doi:10.1111/jmi.70123).
Abstract
Objective: microbranches exist within dentine, providing a network of fluid filled connections between tubules. This study used serial block-face scanning electron microscopy to generate 3D volumes of dentine from different tooth locations, allowing for investigations of the microbranch morphology, the microbranch network characteristics and regional variations in the tooth.
Methods: 3 human teeth were sectioned to generate 21 dentine samples extracted from 7 identical regions of interest around the tooth. Serial block-face scanning electron microscopy was performed using a Gatan 3View, a pixel size of 10nm, and a field of view of 20.48µm x 20.48µm. Tubules and microbranches were automatically segmented and the following quantified: tubule diameter and density; microbranch diameter, density, and connectivity; tissue porosity.
Results: the microbranches were successfully captured in sufficient resolution to generate 3D images. The microbranches move tortuously through the intertubular dentine and travelled a variety of distances before connecting to other tubules. The microbranch density varied by location, with more found in areas of lower tubule density. Microbranches significantly increased tissue porosity (p < 0.001). Microbranch diameter did not vary regionally, with most approximately 140-210nm, regardless of sample location. Tubule density and diameter varied radially – both largest closest to the pulp cavity, then decreasing to the dentinoenamel junction.
Conclusions: this study provides new three-dimensional insight into the morphology and network of the dentinal microbranch network, demonstrating a variability in the density of the microbranches with location around the tooth and a significant increase in tissue porosity.
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Journal of Microscopy - 2026 - Harding - Tubule and microbranch variations in human dentine A quantitative 3D study with
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Submitted date: 26 January 2026
Accepted/In Press date: 14 May 2026
e-pub ahead of print date: 22 May 2026
Identifiers
Local EPrints ID: 511623
URI: http://eprints.soton.ac.uk/id/eprint/511623
ISSN: 0022-2720
PURE UUID: edd8a539-24ac-4c64-8cc3-1af1303ba531
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Date deposited: 26 May 2026 16:33
Last modified: 27 May 2026 02:10
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