Oral salmon calcitonin reduces Lequesne's algofunctional index scores and decreases urinary and serum levels of biomarkers of joint metabolism in knee osteoarthritis

Manicourt, Daniel; Azria, M.; Mindeholm, Linda; Thonar, Eugene J.‐M.A.; Devogelaer, Jean‐Pierre

doi:10.1002/art.22075

Cited by 130 publications

(83 citation statements)

References 11 publications

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“…A few of these studies have also investigated the radiographic severity of OA and serum or urinary biochemical markers (18)(19)(20)(21)(22)(23). In the present study, we analyzed the largest panel of biochemical markers ever investigated in a wellcharacterized cohort of patients with knee OA and we observed that 14 of them were significantly associated with at least 1 imaging feature.…”

Section: Discussionmentioning

confidence: 71%

Can biochemical markers serve as surrogates for imaging in knee osteoarthritis?

Davis

Karl

Granell

et al. 2007

Arthritis & Rheumatism

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Objective. Osteoarthritis (OA) is a complex heterogeneous joint disease affecting more than 35 million people worldwide. The current gold standard diagnostic investigation is the plain radiograph, which lacks sensitivity. Biochemical markers have the potential to act as adjunct markers for imaging in the assessment of knee OA. We undertook this study to determine the association between individual biochemical markers and radiographic features, and to establish whether the association is strengthened when selected biochemical markers are combined into a single factor (a theoretical marker).Methods. Twenty serum and urinary biochemical markers were analyzed in 119 patients with predominantly tibiofemoral knee OA. Pearson's correlation was performed, and corresponding coefficients of determination (R 2 ) were calculated to determine the association between biochemical markers and a range of imaging features from radiographs and dual x-ray absorptiometry of the knee. Biochemical markers demonstrating a significant association (P < 0.05) with a specific imaging feature were combined by principal components analysis (PCA). Pearson's correlation was repeated to establish whether the combined panel of biochemical markers showed a stronger association with imaging than the best single marker.Results. Fourteen biochemical markers showed significant associations with one or more imaging features. By combining specific panels of biochemical markers to form factors, the association of markers with imaging features (R 2 ) increased from 11.9% to 22.7% for the Kellgren/Lawrence (K/L) score, from 5.9% to 9.2% for joint space width (JSW), from 6.6% to 10.8% for sclerosis, from 13.5% to 22.6% for osteophytes, and from 12.0% to 14.2% for bone mineral density (BMD). Biochemical markers identifying patients with osteophytes overlapped with those correlated with a high K/L score, while markers of subchondral BMD formed a completely separate group. Biochemical markers of JSW included markers associated with both osteophytes and BMD.Conclusion. The PCA results suggest that biochemical marker combinations may be more sensitive than individual biochemical markers for reflecting structural damage in patients with knee OA. The differences in biochemical marker profiles associated with osteophytes compared with those associated with subchondral BMD raise the possibility that these 2 processes, commonly seen in bone in knee OA, have underlying biologic differences.Osteoarthritis (OA) is a complex heterogeneous joint disease with a prevalence of 18% in persons age Ͼ55 years in the UK (1). With ϳ35 million people affected worldwide, OA is a major cause of pain and disability, and its incidence is increasing as life expectancy continues to rise (2). The current gold standard for diagnosing OA is the plain radiograph, which has many methodologic shortcomings, and, in spite of efforts to improve techniques (3,4), inaccuracies may occur from subtly different views of the image, degree of flexion, intra-and interobserver discrepancies, and "anticip...

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Section: Discussionmentioning

confidence: 71%

Can biochemical markers serve as surrogates for imaging in knee osteoarthritis?

Davis

Karl

Granell

et al. 2007

Arthritis & Rheumatism

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“…Studies in the ACL dog model [144,145] also showed that subcutaneous injections of calcitonin under therapeutic conditions reduced the progression of OA cartilage and subchondral bone changes as well as the level of serum markers of bone resorption up to 4 months after the surgery. A small phase II trial assessing the efficacy of oral salmon calcitonin in knee OA was recently published [146]. Results showed an improvement in function scores as well as a reduction in some biomarker levels.…”

Section: Drugs/agents That Target Bone Remodellingmentioning

confidence: 99%

Targeting subchondral bone for treating osteoarthritis: what is the evidence?

Tat

Lajeunesse

Pelletier

et al. 2010

Best Practice & Research Clinical Rheumatology

157

121

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Over the past few decades, significant progress has been made with respect to new concepts about the pathogenesis of osteoarthritis (OA). This article summarises some of the knowledge we have today on the involvement of the subchondral bone in OA. It provides substantial evidence that changes in the metabolism of the subchondral bone are an integral part of the OA disease process and that these alterations are not merely secondary manifestations, but are part of a more active component of the disease. Thus, a strong rationale exists for therapeutic approaches that target subchondral bone resorption and/or formation, and data evaluating the drugs targeting bone remodelling raise the hope that new treatment options for OA may become available.

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“…The serum levels of C2C/Cpropeptide of type II collagen, which indicate the ratio of type II collagen degradation to synthesis, are also elevated in OA-susceptible compared with OA-resistant guinea pigs (24). In humans, calcitonin has been shown to reduce the serum levels of C2C and alleviate OA symptoms (25). Furthermore, positive correlations have been found between the MRI T2 parameter and serum levels of C2C in OA knees (26).…”

mentioning

confidence: 99%

The chemical biomarkers C2C, Coll2‐1, and Coll2‐1NO₂ provide complementary information on type II collagen catabolism in healthy and osteoarthritic mice

Ameye¹,

Deberg²,

Oliveira³

et al. 2007

Arthritis & Rheumatism

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Objective. Compared with wild-type (WT) mice, biglycan/fibromodulin double-deficient mice develop severe knee osteoarthritis. We undertook this study to compare type II collagen catabolism in the 2 genotypes and to compare the usefulness of 3 biomarkers of collagen degradation (C2C [also known as Col2-3/4C long mono ] as well as the peptide Coll2-1 and its nitrated form, Coll2-1NO 2 ) for evaluating collagen catabolism in vivo.Methods. In 15 WT mice and 15 biglycan/ fibromodulin double-deficient mice, we determined serum levels of C2C at ages 66 and 141 days, and we determined serum levels of Coll2-1 and Coll2-1NO 2 at ages 49, 81, 95, and 141 days. Expression of the biomarkers in knee sections was examined using immunohistochemistry.Results. The mean concentrations of C2C and Coll2-1 were higher in biglycan/fibromodulin doubledeficient mice at all time points. For C2C and Coll2-1, the ratio of the serum concentration in biglycan/ fibromodulin double-deficient mice to that in WT mice (the double-deficient:WT ratio) was constant over time and was ϳ1.63 and ϳ1.15, respectively. In contrast, the double-deficient:WT ratio for Coll2-1NO 2 varied and, depending on age, was >1 or <1. No significant correlation was found between the expression of the different biomarkers, except for a weak, negative correlation between Coll2-1NO 2 and C2C. In both genotypes, antibodies to each biomarker labeled some fibroblasts in the tendons and menisci as well as chondrocytes above the tidemark in articular cartilage. Growth plates were unstained. For each biomarker, extracellular staining was limited to fibrocartilage areas in the tendons and menisci in all mice and was limited to some focal lesions of the cartilage in biglycan/fibromodulin doubledeficient mice.Conclusion. The different double-deficient:WT ratios observed with C2C, Coll2-1, and Coll2-1NO 2 in the absence of any correlation between the expression of the 3 biomarkers indicate that these biomarkers give complementary, rather than redundant, information about in vivo type II collagen catabolism.Osteoarthritis (OA) is one of the leading causes of pain and disability in the elderly. Its high prevalence and its moderate-to-severe impact on daily life pose a significant public health problem (1). Despite intensive research, a cure remains elusive for this disease with important socioeconomic consequences. The intrinsic difficulty in finding a cure is compounded by the low sensitivity of diagnostic and monitoring tools. For example, the destruction of articular cartilage is an important feature of OA, and radiographic change in joint space width (JSW) is widely recognized as the gold standard end point for measuring destruction of articular cartilage and OA progression. However, this end point is an indirect measure of cartilage integrity, since cartilage is invisible on radiographs and its integrity must be inferred from the spacing between bones. Furthermore, change in JSW has a low signal-to-noise ratio; annual changes are only 0.1-0.2 mm in OA patients (2), close to the p...

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Oral salmon calcitonin reduces Lequesne's algofunctional index scores and decreases urinary and serum levels of biomarkers of joint metabolism in knee osteoarthritis

Cited by 130 publications

References 11 publications

Can biochemical markers serve as surrogates for imaging in knee osteoarthritis?

Can biochemical markers serve as surrogates for imaging in knee osteoarthritis?

Targeting subchondral bone for treating osteoarthritis: what is the evidence?

The chemical biomarkers C2C, Coll2‐1, and Coll2‐1NO₂ provide complementary information on type II collagen catabolism in healthy and osteoarthritic mice

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Oral salmon calcitonin reduces Lequesne's algofunctional index scores and decreases urinary and serum levels of biomarkers of joint metabolism in knee osteoarthritis

Cited by 130 publications

References 11 publications

Can biochemical markers serve as surrogates for imaging in knee osteoarthritis?

Can biochemical markers serve as surrogates for imaging in knee osteoarthritis?

Targeting subchondral bone for treating osteoarthritis: what is the evidence?

The chemical biomarkers C2C, Coll2‐1, and Coll2‐1NO2 provide complementary information on type II collagen catabolism in healthy and osteoarthritic mice

Contact Info

Product

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About

The chemical biomarkers C2C, Coll2‐1, and Coll2‐1NO₂ provide complementary information on type II collagen catabolism in healthy and osteoarthritic mice