Distribution of collagen cross-links in normal human trabecular bone

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Paschalis, EP¹; Recker, R.²; Dicarlo, E.¹; Doty, SB¹; Atti, E.¹; Boskey, AL¹

Distribution of collagen cross-links in normal human trabecular bone

J Bone Miner Res. November 2003;18(11):1942-1946

©2003 American Society for Bone and Mineral Research

Affiliations

¹Mineralized Tissues Research Section, Hospital for Special Surgery, New York, New York, USA

²Creighton University, Omaha, Nebraska, USA
Abstract and keywords

Infrared imaging analysis of normal human iliac crest biopsy specimens shows a characteristic spatial variation in the nonreducible:reducible collagen cross-links at trabecular surfaces, depending on the surfaces' metabolic status.

Introduction: Bone is a composite material consisting of mineral, collagen, non-collagenous proteins, and lipids. Bone collagen, mainly type I, provides the scaffold on which mineral is deposited and imparts specific mechanical properties, determined in part by the amount of collagen present, its orientation and fibril diameter, and the distribution of its cross-links.

Materials and Methods: In this study, the technique of Fourier transform infrared imaging (FTIRI) was used to determine the ratio of nonreducible:reducible cross-links, in 2- to 4-μm-thick sections from human iliac crest biopsy specimens (N = 14) at trabecular surfaces as a function of surface activity (forming versus resorbing), with an ∼6.3-mm spatial resolution. The biopsy specimens were obtained from patients devoid of any metabolic bone disease based on histomorphometric and bone densitometric parameters.

Results and Conclusions: Distributions of collagen cross-links within the first 50 mm at forming trabecular surfaces demonstrated a progressive increase in the nonreducible:reducible collagen cross-link ratio, unlike in the case of resorbing surfaces, in which the collagen cross-links ratio (as defined for the purposes of the present report) was relatively constant.

Keywords: collagen cross-links; trabecular bone; infrared imaging; iliac crest biopsy
Links

DOI: 10.1359/jbmr.2003.18.11.1942

PubMed: 14606505

WoS: 000186059500003
History

Received: 2002-11-4

Revised: 2003-06-5

Accepted: 2003-06-10

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2011	Paschalis EP, Tatakis DN, Robins S, Fratzl P, Manjubala I, Zoehrer R, Gamsjaeger S, Buchinger B, Roschger A, Phipps R, Boskey AL, Dall'Ara E, Varga P, Zysset P, Klaushofer K, Roschger P. Lathyrism-induced alterations in collagen cross-links influence the mechanical properties of bone material without affecting the mineral. Bone. December 2011;49(6):1232-1241.
2020	Rokidi S, Bravenboer N, Gamsjaeger S, Chavassieux P, Zwerina J, Paschalis E, Papapoulos S, Appelman-Dijkstra N. Impact microindentation measurements correlate with cortical bone material properties measured by Fourier transform infrared imaging in humans. Bone. August 2020;137:115437.
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2005	Ager JW III, Nalla RK, Breeden KL, Ritchie RO. Deep-ultraviolet Raman spectroscopy study of the effect of aging on human cortical bone. J Biomed Opt. May–June 2005;10(3):034012.
2004	Paschalis EP, Shane E, Lyritis G, Skarantavos G, Mendelsohn R, Boskey AL. Bone fragility and collagen cross‐links. J Bone Miner Res. December 2004;19(12):2000-2004.
2006	Durchschlag E, Paschalis EP, Zoehrer R, Roschger P, Fratzl P, Recker R, Phipps R, Klaushofer K. Bone material properties in trabecular bone from human iliac crest biopsies after 3‐ and 5‐year treatment with risedronate. J Bone Miner Res. October 2006;21(10):1581-1590.
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2017	Unal M. Classification of Bound Water and Collagen Denaturation Status of Cortical Bone by Raman Spectroscopy [PhD thesis]. Cleveland, OH: Case Western Reserve University; January 2017.
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