Abstract
Bone and cartilage are connective tissues with distinct organic matrix (collagen and non‐collagenous proteins) composition facilitating their biological function. Proteoglycans (PGs), a member of the non‐collagenous proteins fulfill functions that are determined by both their core protein and their glycosaminoglycan chains. The purpose of the present study was to identify Raman bands that are representative of PG concentration and may be used in both bone and cartilage tissues. To achieve this goal, we analyzed a series of reference PGs and collagens, as well as turkey leg tendon to verify the laser polarization independency of the identified bands. Additionally, the applicability of these bands in both cartilage and bone tissue simultaneously was tested in a healthy femoral head by Raman imaging and hierarchical cluster analysis to describe the distribution of PGs at the micron level from articular cartilage to subchondral bone. The results of the study show that the Raman band ~1375 cm−1 can be used as a PGs marker band in both cartilage and bone. Moreover, articular cartilage has a lower content of organic matrix (mostly type II collagen), while the middle and deep transitional zone haves a higher concentration of PGs. The calcified cartilage is characterized by a lower content of PGs and total organic matrix (estimated from the integrated area of the amide III band). Copyright © 2014 John Wiley & Sons, Ltd.
Published Version
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