Microfocus small angle x-ray scattering reveals structural features in archaeological bone samples: Detection of changes in bone mineral habit and size

T. Wess; I. Alberts; J. Hiller; M. Drakopoulos; A. T. Chamberlain; M. Collins

doi:10.1007/s002230020045

Microfocus small angle x-ray scattering reveals structural features in archaeological bone samples: Detection of changes in bone mineral habit and size

T. Wess^*, I. Alberts, J. Hiller, M. Drakopoulos, A. T. Chamberlain, M. Collins

^*Corresponding author for this work

45 Citations (Scopus)

Abstract

Microfocus x-ray scattering provides a powerful nondestructive technique capable of providing important information about the size, habit, and arrangement of mineral crystals in bone. The technique is capable of probing textural differences in a sample at a micron scale resolution. The study presented here involved the analysis of a number of archaeological bones by microfocus x-ray scattering at the ESRF Grenoble in order to determine local changes in mineral durability. The results showed that regions of bone with a modified microscopic morphology contained a greater dispersion of crystal shape when compared with more intact regions and control contemporary bone samples, but the crystal thickness values showed similar consistency. We speculate that the persistence of collagen in the archaeological bone may allow diagenetic remodeling of bone in terms of crystallite shape but defines the size of remodelled crystallites. The ability to detect such local changes in texture has wide potential for determining crystal characteristics in healthy and diseased bone samples.

Original language	English
Journal	Calcified Tissue International
Volume	70
Issue number	2
Pages (from-to)	103-110
Number of pages	8
ISSN	0171-967X
DOIs	https://doi.org/10.1007/s002230020045
Publication status	Published - 1 Feb 2002

Keywords

Apatite
Bone diagenesis
Crystal habit
Mineralization
Small angle scattering

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10.1007/s002230020045

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title = "Microfocus small angle x-ray scattering reveals structural features in archaeological bone samples: Detection of changes in bone mineral habit and size",

abstract = "Microfocus x-ray scattering provides a powerful nondestructive technique capable of providing important information about the size, habit, and arrangement of mineral crystals in bone. The technique is capable of probing textural differences in a sample at a micron scale resolution. The study presented here involved the analysis of a number of archaeological bones by microfocus x-ray scattering at the ESRF Grenoble in order to determine local changes in mineral durability. The results showed that regions of bone with a modified microscopic morphology contained a greater dispersion of crystal shape when compared with more intact regions and control contemporary bone samples, but the crystal thickness values showed similar consistency. We speculate that the persistence of collagen in the archaeological bone may allow diagenetic remodeling of bone in terms of crystallite shape but defines the size of remodelled crystallites. The ability to detect such local changes in texture has wide potential for determining crystal characteristics in healthy and diseased bone samples.",

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author = "T. Wess and I. Alberts and J. Hiller and M. Drakopoulos and Chamberlain, {A. T.} and M. Collins",

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T2 - Detection of changes in bone mineral habit and size

AU - Wess, T.

AU - Alberts, I.

AU - Hiller, J.

AU - Drakopoulos, M.

AU - Chamberlain, A. T.

AU - Collins, M.

PY - 2002/2/1

Y1 - 2002/2/1

N2 - Microfocus x-ray scattering provides a powerful nondestructive technique capable of providing important information about the size, habit, and arrangement of mineral crystals in bone. The technique is capable of probing textural differences in a sample at a micron scale resolution. The study presented here involved the analysis of a number of archaeological bones by microfocus x-ray scattering at the ESRF Grenoble in order to determine local changes in mineral durability. The results showed that regions of bone with a modified microscopic morphology contained a greater dispersion of crystal shape when compared with more intact regions and control contemporary bone samples, but the crystal thickness values showed similar consistency. We speculate that the persistence of collagen in the archaeological bone may allow diagenetic remodeling of bone in terms of crystallite shape but defines the size of remodelled crystallites. The ability to detect such local changes in texture has wide potential for determining crystal characteristics in healthy and diseased bone samples.

AB - Microfocus x-ray scattering provides a powerful nondestructive technique capable of providing important information about the size, habit, and arrangement of mineral crystals in bone. The technique is capable of probing textural differences in a sample at a micron scale resolution. The study presented here involved the analysis of a number of archaeological bones by microfocus x-ray scattering at the ESRF Grenoble in order to determine local changes in mineral durability. The results showed that regions of bone with a modified microscopic morphology contained a greater dispersion of crystal shape when compared with more intact regions and control contemporary bone samples, but the crystal thickness values showed similar consistency. We speculate that the persistence of collagen in the archaeological bone may allow diagenetic remodeling of bone in terms of crystallite shape but defines the size of remodelled crystallites. The ability to detect such local changes in texture has wide potential for determining crystal characteristics in healthy and diseased bone samples.

KW - Apatite

KW - Bone diagenesis

KW - Crystal habit

KW - Mineralization

KW - Small angle scattering

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Microfocus small angle x-ray scattering reveals structural features in archaeological bone samples: Detection of changes in bone mineral habit and size

Abstract

Keywords

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