One year after treatment, characterized chondrocyte implantation was associated with a tissue regenerate that was superior to that after microfracture. Short-term clinical outcome was similar for both treatments. The superior structural outcome may result in improved long-term clinical benefit with characterized chondrocyte implantation. Long-term follow-up is needed to confirm these findings.
The statistically significant improvement of KOOS symptom and sport parameters together with the consistently higher, though non-statistically significant, improvement of most other parameters demonstrates that Orthokin clearly induces a biological response different from placebo treatment and warrant future investigations into the possible chondroprotective effect of Orthokin. However, in the current study the primary efficacy objective was not met and, therefore, the use of Orthokin currently cannot yet be recommended for the treatment of OA.
These results suggest that clear differences between chondrocytes from healthy and OA joints exist and that these are not completely abolished during the process of de- and redifferentiation. Therefore, in vitro cartilage regeneration models, which use chondrocytes from OA joints, should be interpreted with care.
This study validates the short-form WOMAC function scale for assessment of conservative treatment of osteoarthritis of the knee. Data were collected before treatment and six and nine months later, from 100 patients with osteoarthritis of the knee to determine the validity, internal consistency, test-retest reliability, floor and ceiling effects, and responsiveness of the short-form WOMAC function scale. The scale showed high correlation with the traditional WOMAC and other measures. The internal consistency was good (Cronbach alpha: 0.88 to 0.95) and an excellent test-retest reliability was found (Lin's concordance correlation coefficient (rho(c)): 0.85 to 0.94). The responsiveness was adequate and comparable to that of the traditional WOMAC (standardised response mean 0.56 to 0.44 and effect size 0.64 to 0.57) and appeared not to be significantly affected by floor or ceiling effects (0% and 7%, respectively). The short-form WOMAC function scale is a valid, reliable and responsive alternative to the traditional WOMAC in the evaluation of patients with osteoarthritis of the knee managed conservatively. It is simple to use in daily practice and is therefore less of a burden for patients in clinical trials.
Various in vivo and in vitro studies suggest that joint homeostasis may have a crucial effect on the quality of regeneration tissue resulting from cartilage tissue engineering techniques. The goal of the current study was to evaluate the effect of synovial fluid (SF) from injured knee joints on in vitro chondrogenesis. Chondrocytes were isolated from a healthy human femoral condyle (post-mortem) and expanded in monolayer for 2 passages. Subsequently, the chondrocytes were redifferentiated for 14 days on collagencoated filters, cultured either in the presence or absence of 10% SF. SF was obtained from 12 injured human knee joints. After 14 days of culture, SF supplementation resulted in a significant downregulation of final proteoglycan (PG) content (7.3 +/- 1.8 mg versus 15.6 +/- 1.3 mg; p = 0.0001), PG content normalized to DNA (0.7 +/- 0.5 mg/microg versus 3.0 +/- 0.6 mg/microg; p < 0.05), relative collagen type II mRNA levels normalized to GAPDH mRNA levels (0.2 +/- 0.3 versus 7.0 +/- 5.6; p < 0.001), and differentiation index (collagen type II/I mRNA ratio; 0.1 +/- 0.2 versus 6.0 +/- 2.9; p < 0.001) as compared to control culture conditions. Additionally, SF-supplemented media resulted in significantly increased cellularity, as reflected by DNA content, compared with control media (1,369 +/- 683 microg versus 514 +/- 72 microg; p < 0.0001). Morphology, and collagen type I, X, and aggrecan mRNA levels were not significantly affected. In conclusion, this study demonstrates that SF from injured human knee joints significantly affects in vitro chondrogenesis and therefore may provide a viable target for future improvement of ACT by refinement of culture techniques, patient selection, or pretreatment of affected joints to restore joint homeostasis.
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