Evidence from Raman Spectroscopy of a Putative Link Between Inherent Bone Matrix Chemistry and Degenerative Joint Disease

Evidence from Raman Spectroscopy of a Putative Link Between Inherent Bone Matrix Chemistry and Degenerative Joint Disease

Objective Osteoarthritis (OA) is a common debilitating disease that results in degeneration of cartilage and bone in the synovial joints. Subtle changes in the molecular structure of the subchondral bone matrix occur and may be associated with cartilage changes. The aim of this study was to explore...

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Bibliographic Details
Published in:Arthritis & rheumatology (Hoboken, N.J.) Vol. 66; no. 5; pp. 1237 - 1246
Main Authors: Kerns, Jemma G., Gikas, Panagiotis D., Buckley, Kevin, Shepperd, Adam, Birch, Helen L., McCarthy, Ian, Miles, Jonathan, Briggs, Timothy W. R., Keen, Richard, Parker, Anthony W., Matousek, Pavel, Goodship, Allen E.
Format: Journal Article
Language:English
Published: United States Wiley Subscription Services, Inc 01-05-2014
Blackwell Publishing Ltd
Subjects:
Aged
Aged, 80 and over
Arthroplasty, Replacement, Knee
Bone Density
Bone Matrix - chemistry
Bone Matrix - metabolism
Bone Matrix - pathology
Case-Control Studies
Collagen Type I - analysis
Female
Humans
Knee Joint - metabolism
Knee Joint - pathology
Male
Middle Aged
Osteoarthritis
Osteoarthritis - metabolism
Osteoarthritis - pathology
Osteoarthritis - surgery
Osteoarthritis, Knee - metabolism
Osteoarthritis, Knee - pathology
Osteoarthritis, Knee - surgery
Spectrum Analysis, Raman
Tibia - metabolism
Tibia - pathology
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Summary:Objective Osteoarthritis (OA) is a common debilitating disease that results in degeneration of cartilage and bone in the synovial joints. Subtle changes in the molecular structure of the subchondral bone matrix occur and may be associated with cartilage changes. The aim of this study was to explore whether the abnormal molecular changes observed in the matrix of OA subchondral bone can be identified with Raman spectroscopy. Methods Tibial plateaus from patients undergoing total knee replacement for OA (n = 10) were compared with healthy joints from patients undergoing leg amputation (n = 5; sex‐ and laterality‐matched) and with non‐OA cadaveric knee specimens (n = 5; age‐matched). The samples were analyzed with Raman spectroscopy, peripheral quantitative computed tomography, and chemical analysis to compare changes in defined load‐bearing sites in both the medial and lateral compartments. Results OA subchondral bone matrix changes were detected by Raman spectroscopy. Within each cohort, there was no spectral difference in bone matrix chemistry between the medial and lateral compartments, whereas a significant spectral difference (P < 0.001) was observed between the non‐OA and OA specimens. Type I collagen chain ratios were normal in the non‐OA specimens but were significantly elevated in the OA specimens. Conclusion In comparing the results of Raman spectroscopy with those obtained by other standard techniques, these findings show, for the first time, that subchondral bone changes, or inherent differences, exist in both the medial and lateral (beneath intact cartilage) compartments of OA knees. The development of Raman spectroscopy as a screening tool, based on molecular‐specific modifications in bone, would facilitate the identification of clinical disease, including early molecular changes.
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Supported by the Engineering and Physical Sciences Research Council (EP/H002693/1). Dr. Gikas' work was supported by the Royal National Orthopaedic Hospital Charity.
ISSN:2326-5191
2326-5205
DOI:10.1002/art.38360