Sex differences of human trabecular bone microstructure in aging are site-dependent.

Felix Eckstein; Maiko Matsuura; Volker Kuhn; Matthias Priemel; Ralph Müller; Thomas M Link; Eva-Maria Lochmüller

Sex differences of human trabecular bone microstructure in aging are site-dependent.

Standard

Sex differences of human trabecular bone microstructure in aging are site-dependent. / Eckstein, Felix; Matsuura, Maiko; Kuhn, Volker; Priemel, Matthias; Müller, Ralph; Link, Thomas M; Lochmüller, Eva-Maria.

In: J BONE MINER RES, Vol. 22, No. 6, 6, 2007, p. 817-824.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Eckstein, F, Matsuura, M, Kuhn, V, Priemel, M, Müller, R, Link, TM & Lochmüller, E-M 2007, 'Sex differences of human trabecular bone microstructure in aging are site-dependent.', J BONE MINER RES, vol. 22, no. 6, 6, pp. 817-824. <http://www.ncbi.nlm.nih.gov/pubmed/17352643?dopt=Citation>

APA

Eckstein, F., Matsuura, M., Kuhn, V., Priemel, M., Müller, R., Link, T. M., & Lochmüller, E-M. (2007). Sex differences of human trabecular bone microstructure in aging are site-dependent. J BONE MINER RES, 22(6), 817-824. [6]. http://www.ncbi.nlm.nih.gov/pubmed/17352643?dopt=Citation

Vancouver

Eckstein F, Matsuura M, Kuhn V, Priemel M, Müller R, Link TM et al. Sex differences of human trabecular bone microstructure in aging are site-dependent. J BONE MINER RES. 2007;22(6):817-824. 6.

Bibtex

@article{6e2617749f3d4b91bd9662ba82386791,

title = "Sex differences of human trabecular bone microstructure in aging are site-dependent.",

abstract = "In this study, we characterize bone microstructure, specifically sex differences, at multiple skeletal sites in 165 subjects >52 yr of age, using microCT technology in vitro. Significant sex differences are observed at the distal radius, femoral neck, and femoral trochanter, but not at the iliac crest, calcaneus, and lumbar vertebral body. Correlations in BV/TV between sites ranged from r = 0.13 to 0.56. INTRODUCTION: The goals of this study were (1) to assess potential sex differences of bone microstructure and their difference between skeletal sites and (2) to explore the relationship of trabecular microstructural properties between relevant skeletal sites. MATERIALS AND METHODS: Trabecular bone microstructural properties were measured in vitro in 165 subjects 52-99 yr of age using microCT. Defined volumes of interest (cylinders with 6 mm diameter and 6 mm length) were scanned at a resolution of 26 microm (isotropic) in six different anatomical sites: distal radius, femoral neck and trochanter, iliac crest, calcaneus, and second lumbar vertebral body. RESULTS: At the radius and femoral neck, trabecular bone displayed a more plate-like structure, thicker trabeculae, smaller separation/higher trabecular number, higher connectivity, and a higher degree of anisotropy in men than in women (p <0.05). At the trochanter, men displayed more plate-like structure and thicker trabeculae (p <0.05), but no differences in trabecular separation or other parameters compared with the women. At the calcaneus, iliac crest, and second lumbar vertebra none of the bone parameters displayed significant differences between sexes. The BV/TV at one site explained a range of only 2-32% of the variability at other sites. CONCLUSIONS: These results suggest that trabecular bone microstructural properties are remarkably heterogeneous throughout the skeleton. Significant differences between men and women are observed at some, but not at all, sites. The magnitude of sex differences in trabecular microstructure coincides with that of fracture incidence observed for some of the sites in epidemiological studies.",

author = "Felix Eckstein and Maiko Matsuura and Volker Kuhn and Matthias Priemel and Ralph M{\"u}ller and Link, {Thomas M} and Eva-Maria Lochm{\"u}ller",

year = "2007",

language = "Deutsch",

volume = "22",

pages = "817--824",

journal = "J BONE MINER RES",

issn = "0884-0431",

publisher = "Wiley-Blackwell",

number = "6",

}

RIS

TY - JOUR

T1 - Sex differences of human trabecular bone microstructure in aging are site-dependent.

AU - Eckstein, Felix

AU - Matsuura, Maiko

AU - Kuhn, Volker

AU - Priemel, Matthias

AU - Müller, Ralph

AU - Link, Thomas M

AU - Lochmüller, Eva-Maria

PY - 2007

Y1 - 2007

N2 - In this study, we characterize bone microstructure, specifically sex differences, at multiple skeletal sites in 165 subjects >52 yr of age, using microCT technology in vitro. Significant sex differences are observed at the distal radius, femoral neck, and femoral trochanter, but not at the iliac crest, calcaneus, and lumbar vertebral body. Correlations in BV/TV between sites ranged from r = 0.13 to 0.56. INTRODUCTION: The goals of this study were (1) to assess potential sex differences of bone microstructure and their difference between skeletal sites and (2) to explore the relationship of trabecular microstructural properties between relevant skeletal sites. MATERIALS AND METHODS: Trabecular bone microstructural properties were measured in vitro in 165 subjects 52-99 yr of age using microCT. Defined volumes of interest (cylinders with 6 mm diameter and 6 mm length) were scanned at a resolution of 26 microm (isotropic) in six different anatomical sites: distal radius, femoral neck and trochanter, iliac crest, calcaneus, and second lumbar vertebral body. RESULTS: At the radius and femoral neck, trabecular bone displayed a more plate-like structure, thicker trabeculae, smaller separation/higher trabecular number, higher connectivity, and a higher degree of anisotropy in men than in women (p <0.05). At the trochanter, men displayed more plate-like structure and thicker trabeculae (p <0.05), but no differences in trabecular separation or other parameters compared with the women. At the calcaneus, iliac crest, and second lumbar vertebra none of the bone parameters displayed significant differences between sexes. The BV/TV at one site explained a range of only 2-32% of the variability at other sites. CONCLUSIONS: These results suggest that trabecular bone microstructural properties are remarkably heterogeneous throughout the skeleton. Significant differences between men and women are observed at some, but not at all, sites. The magnitude of sex differences in trabecular microstructure coincides with that of fracture incidence observed for some of the sites in epidemiological studies.

AB - In this study, we characterize bone microstructure, specifically sex differences, at multiple skeletal sites in 165 subjects >52 yr of age, using microCT technology in vitro. Significant sex differences are observed at the distal radius, femoral neck, and femoral trochanter, but not at the iliac crest, calcaneus, and lumbar vertebral body. Correlations in BV/TV between sites ranged from r = 0.13 to 0.56. INTRODUCTION: The goals of this study were (1) to assess potential sex differences of bone microstructure and their difference between skeletal sites and (2) to explore the relationship of trabecular microstructural properties between relevant skeletal sites. MATERIALS AND METHODS: Trabecular bone microstructural properties were measured in vitro in 165 subjects 52-99 yr of age using microCT. Defined volumes of interest (cylinders with 6 mm diameter and 6 mm length) were scanned at a resolution of 26 microm (isotropic) in six different anatomical sites: distal radius, femoral neck and trochanter, iliac crest, calcaneus, and second lumbar vertebral body. RESULTS: At the radius and femoral neck, trabecular bone displayed a more plate-like structure, thicker trabeculae, smaller separation/higher trabecular number, higher connectivity, and a higher degree of anisotropy in men than in women (p <0.05). At the trochanter, men displayed more plate-like structure and thicker trabeculae (p <0.05), but no differences in trabecular separation or other parameters compared with the women. At the calcaneus, iliac crest, and second lumbar vertebra none of the bone parameters displayed significant differences between sexes. The BV/TV at one site explained a range of only 2-32% of the variability at other sites. CONCLUSIONS: These results suggest that trabecular bone microstructural properties are remarkably heterogeneous throughout the skeleton. Significant differences between men and women are observed at some, but not at all, sites. The magnitude of sex differences in trabecular microstructure coincides with that of fracture incidence observed for some of the sites in epidemiological studies.

M3 - SCORING: Zeitschriftenaufsatz

VL - 22

SP - 817

EP - 824

JO - J BONE MINER RES

JF - J BONE MINER RES

SN - 0884-0431

IS - 6

M1 - 6

ER -