Bone Biomineral Properties Vary across Human Osteonal Bone

Nina K. Wittig; Jonas Palle; Maja Østergaard; Simon Frølich; Mie E. Birkbak; Kathryn M. Spiers; Jan Garrevoet; Henrik Birkedal

doi:10.1021/acsnano.9b05535

Bone Biomineral Properties Vary across Human Osteonal Bone

Nina K. Wittig, Jonas Palle, Maja Østergaard, Simon Frølich, Mie E. Birkbak, Kathryn M. Spiers, Jan Garrevoet, Henrik Birkedal^*

^*Corresponding author for this work

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Journal article › Research › peer-review

40 Citations (Scopus)

Abstract

The biomineralization of bone remains a puzzle. During Haversian remodeling in the dense human cortical bone, osteoclasts excavate a tunnel that is then filled in by osteoblasts with layers of bone of varying fibril orientations, resulting in a lamellar motif. Such bone represents an excellent possibility to increase our understanding of bone as a material as well as bone biomineralization by studying spatio/temporal variations in the biomineral across an osteon. To this end, fluorescence computed tomography and diffraction scattering computed tomography with sub-micrometer resolution is applied to obtain position resolved fluorescence spectra and diffraction patterns in a 3D volume. The microstructural properties of the apatite biomineral are not homogeneous but depend critically on the time point at which it was laid down. This indicates that the nature of bone biomineral is highly dependent on the microenvironment during bone formation and remodeling.

Original language	English
Journal	ACS Nano
Volume	13
Issue	11
Pages (from-to)	12949-12956
Number of pages	8
ISSN	1936-0851
DOIs	https://doi.org/10.1021/acsnano.9b05535
Publication status	Published - 26 Nov 2019

Keywords

biomineralization
bone
diffraction scattering computed tomography
fluorescence computed tomography
hierarchical materials

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10.1021/acsnano.9b05535

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title = "Bone Biomineral Properties Vary across Human Osteonal Bone",

abstract = "The biomineralization of bone remains a puzzle. During Haversian remodeling in the dense human cortical bone, osteoclasts excavate a tunnel that is then filled in by osteoblasts with layers of bone of varying fibril orientations, resulting in a lamellar motif. Such bone represents an excellent possibility to increase our understanding of bone as a material as well as bone biomineralization by studying spatio/temporal variations in the biomineral across an osteon. To this end, fluorescence computed tomography and diffraction scattering computed tomography with sub-micrometer resolution is applied to obtain position resolved fluorescence spectra and diffraction patterns in a 3D volume. The microstructural properties of the apatite biomineral are not homogeneous but depend critically on the time point at which it was laid down. This indicates that the nature of bone biomineral is highly dependent on the microenvironment during bone formation and remodeling.",

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T1 - Bone Biomineral Properties Vary across Human Osteonal Bone

AU - Wittig, Nina K.

AU - Palle, Jonas

AU - Østergaard, Maja

AU - Frølich, Simon

AU - Birkbak, Mie E.

AU - Spiers, Kathryn M.

AU - Garrevoet, Jan

AU - Birkedal, Henrik

PY - 2019/11/26

Y1 - 2019/11/26

N2 - The biomineralization of bone remains a puzzle. During Haversian remodeling in the dense human cortical bone, osteoclasts excavate a tunnel that is then filled in by osteoblasts with layers of bone of varying fibril orientations, resulting in a lamellar motif. Such bone represents an excellent possibility to increase our understanding of bone as a material as well as bone biomineralization by studying spatio/temporal variations in the biomineral across an osteon. To this end, fluorescence computed tomography and diffraction scattering computed tomography with sub-micrometer resolution is applied to obtain position resolved fluorescence spectra and diffraction patterns in a 3D volume. The microstructural properties of the apatite biomineral are not homogeneous but depend critically on the time point at which it was laid down. This indicates that the nature of bone biomineral is highly dependent on the microenvironment during bone formation and remodeling.

AB - The biomineralization of bone remains a puzzle. During Haversian remodeling in the dense human cortical bone, osteoclasts excavate a tunnel that is then filled in by osteoblasts with layers of bone of varying fibril orientations, resulting in a lamellar motif. Such bone represents an excellent possibility to increase our understanding of bone as a material as well as bone biomineralization by studying spatio/temporal variations in the biomineral across an osteon. To this end, fluorescence computed tomography and diffraction scattering computed tomography with sub-micrometer resolution is applied to obtain position resolved fluorescence spectra and diffraction patterns in a 3D volume. The microstructural properties of the apatite biomineral are not homogeneous but depend critically on the time point at which it was laid down. This indicates that the nature of bone biomineral is highly dependent on the microenvironment during bone formation and remodeling.

KW - biomineralization

KW - bone

KW - diffraction scattering computed tomography

KW - fluorescence computed tomography

KW - hierarchical materials

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ER -

Bone Biomineral Properties Vary across Human Osteonal Bone

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Keywords

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