Literature DB >> 18769963

Spectroscopic markers of bone quality in alendronate-treated postmenopausal women.

A L Boskey1, L Spevak, R S Weinstein.   

Abstract

UNLABELLED: Comparison of infrared spectroscopic images of sections from biopsies of placebo-treated post-menopausal women and women treated for 3 years with 10 mg/day alendronate demonstrated significant increases in cortical bone mineral content, no alterations in other spectroscopic markers of "bone quality," but a decrease in tissue heterogeneity.
METHODS: The material properties of thick sections from iliac crest biopsies of seven alendronate-treated women were compared to those from ten comparably aged post-menopausal women without bone disease, using infrared spectroscopic imaging at approximately 7 microm spatial resolution. Parameters evaluated were mineral/matrix ratio, crystallinity, carbonate/amide I ratio, and collagen maturity. The line widths at half maximum of the pixel histograms for each parameter were used as measures of heterogeneity.
RESULTS: The mineral content (mineral/matrix ratio) in the cortical bone of the treated women's biopsies was higher than that in the untreated control women. Crystallinity, carbonate/protein, and collagen maturity indices were not significantly altered; however, the pixel distribution was significantly narrowed for all cortical and trabecular parameters with the exception of collagen maturity in the alendronate treatment group.
CONCLUSIONS: The increases in mineral density and decreased fracture risk associated with bisphosphonate treatment may be counterbalanced by a decrease in tissue heterogeneity, which could impair tissue mechanical properties. These consistent data suggest that alendronate treatment, while increasing the bone mass, decreases the tissue heterogeneity.

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Year:  2008        PMID: 18769963      PMCID: PMC2664862          DOI: 10.1007/s00198-008-0725-9

Source DB:  PubMed          Journal:  Osteoporos Int        ISSN: 0937-941X            Impact factor:   4.507


  37 in total

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  57 in total

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Review 5.  Infrared assessment of bone quality: a review.

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7.  Studying variations in bone composition at nano-scale resolution: a preliminary report.

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10.  Young's modulus and hardness of human trabecular bone with bisphosphonate treatment durations up to 20 years.

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