Chitosan-glucose derivative membrane obtained by Maillard reaction improves cartilage repair in a rabbit model

Treatment of articular cartilage injury remains a challenging clinical problem in orthopedics. Chitosan-derived biomaterial could be a potential adjuvant treatment to improve cartilage repair. In the current study, we examined the effects of two potential chitosan-derived materials on cartilage regeneration of osteochondral defects in rabbits.

CGMR might improve cartilage regeneration in osteochondral defects.

An osteochondral defect was created over the rabbit knee and treated using three approaches: group A received no material (n = 24), group B received chitosan membranes with glucose absorption (CGA; n = 25), and group C received chitosan-glucose derivative membranes obtained via the Maillard reaction (CGMR; n = 25). Cartilage repair over the osteochondral defect was analyzed 12 weeks post-surgery via histological analysis, immunostaining, and reverse transcription-qualitative polymerase chain reaction (RT-qPCR) for type-I and type-II collagen mRNA.

According to histological analysis, CGMR-treated defects showed significantly improved modified O'Driscoll scoring when compared with no material- and CGA-treated defects (20.9 ± 4.3 vs. 13.00 ± 2.5 and 17.7 ± 4.6, p < 0.001). Moreover, group C exhibited higher intensity of type-II collagen immunohistochemical staining over the regenerated cartilage than groups A and B, along with increased expression of type-II collagen mRNA by RT-qPCR. Conclusions: CGMR might improve cartilage regeneration in osteochondral defects.