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W2032097545 abstract "Background: Osteoporosis in many countries has reached epidemic proportions. This has stimulated the development of biochemical markers to assist in the assessment of osteoporotic risk and in monitoring the efficacy of treatment. Biochemical markers of bone turnover are products released from osteoblasts and osteoclasts or collagen breakdown products. Markers: Markers of bone formation include bone-specific alkaline phosphatase (BAP), osteocalcin (OC) and procollagen peptides. All of these can be measured easily by immunoassay techniques. Of these markers, OC has been extensively studied. However, OC undergoes in vitro degradation, thus, assay results are variable. BAP, on the other hand, is much more stable and shows less within-person biological variation. Bone resorption markers include tartrate-resistant acid phosphatase (TRAP) and collagen breakdown products, such as pyridinium cross-links, galactosyl hydroxylysine and cross-linked telopeptides, such as CTx and NTx. Of these, deoxypyridinium (DPD) has been extensively studied. DPD shows diurnal variation and the within-individual biological variation is large. Of the newer assays, NTx appear to show large differences at menopause. Conclusions: Thus, serum BAP and DPD or NTx are the current choice of bone markers." @default.
W2032097545 created "2016-06-24" @default.
W2032097545 creator A5053337156 @default.
W2032097545 date "2001-11-01" @default.
W2032097545 modified "2023-09-25" @default.
W2032097545 title "Biochemical markers of bone turnover" @default.
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W2032097545 cites W1929193411 @default.
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W2032097545 cites W1974620983 @default.
W2032097545 cites W1975098826 @default.
W2032097545 cites W2009724226 @default.
W2032097545 cites W2010370140 @default.
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W2032097545 cites W2024170102 @default.
W2032097545 cites W2024619285 @default.
W2032097545 cites W2028360574 @default.
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W2032097545 cites W2039010341 @default.
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W2032097545 cites W2062781570 @default.
W2032097545 cites W2069723347 @default.
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W2032097545 cites W2078050432 @default.
W2032097545 cites W2090456620 @default.
W2032097545 cites W2090457064 @default.
W2032097545 cites W2134111887 @default.
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W2032097545 doi "https://doi.org/10.1016/s0009-8981(01)00656-8" @default.
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