Altered distal radioulnar joint contact (DRUJ) mechanics are thought to cause degenerative changes in the joint following injury. Much of the current research examining DRUJ arthrokinematics focuses on the effect of joint malalignment and resultant degenerative changes. Little is known regarding native cartilage contact mechanics in the distal radioulnar joint. Moreover, current techniques used to measure joint contact rely on invasive procedures and are limited to statically loaded positions. The purpose of this study was to examine native distal radioulnar joint contact mechanics during simulated active and passive forearm rotation using a non-invasive imaging approach. Testing was performed using 8 fresh frozen cadaveric specimens (6 men: 2 women, mean age 62 years) with no CT evidence of osteoarthritis. The specimens were thawed and surgically prepared for biomechanical testing by isolating the tendons of relevant muscles involved in forearm rotation. The humerus was then rigidly secured to a wrist simulator allowing for simulated active and passive forearm rotation. Three-dimensional (3D) cartilage surface reconstructions of the distal radius and ulna were created using volumetric data acquired from computed tomography after joint disarticulation. Using optically tracked motion data and 3D surface reconstructions, the relative position of the cartilage models was rendered and used to measure DRUJ cartilage contact mechanics. The results of this study indicate that contact area was maximal in the DRUJ at 10 degrees of supination (p=0.002). There was more contact area in supination than pronation for both active (p=0.005) and passive (p=0.027) forearm rotation. There was no statistically significant difference in the size of the DRUJ contact patch when comparing analogous rotation angles for simulated active and passive forearm motion (p=0.55). The contact centroid moved 10.5±2.6 mm volar along the volar-dorsal axis during simulated active supination. Along the proximal-distal axis, the contact centroid moved 5.7±2.4 mm proximal during simulated active supination. Using the technique employed in this study, it was possible to non-invasively examine joint cartilage contact mechanics of the distal radioulnar joint while undergoing simulated, continuous active and passive forearm rotation. Overall, there were higher contact area values in supination compared with pronation, with a peak at 10 degrees of supination. The contact centroid moved volarly and proximally with supination. There was no difference in the measured cartilage contact area when comparing active and passive forearm rotation. This study gives new insight into the changes in contact patterns at the native distal radioulnar joint during simulated forearm rotation, and has implications for increasing our understanding of altered joint contact mechanics in the setting of deformity

The lifetime prevalence of symptomatic osteoarthritis at the knee is 50% osteoarthritis of the ankle occurs in only 1% of the population. This variation in prevalence has been hypothesised to result from the differential responsiveness of the joint cartilages to catabolic stimuli. Human cartilage explants were taken from the talar domes (n=12) and the femoral condyles (n=7) following surgical amputation. Explants were cultured in the presence of either a combination of high concentration cytokines (TNFα, OSM, IL-1α) to resemble a post traumatic environment or low concentration cytokines to resemble a chronic osteoarthritic joint. Cartilage breakdown was measured by the percentage loss of Sulphated glycosaminoglycan (sGAG) from the explant to the media during culture. Expression levels of the pro-inflammatory molecules nitric oxide and prostaglandin E. 2. were also measured. Significantly more sGAG was lost from knee cartilage exposed to TNFα (22.2% vs 13.2%, P=0.01) and TNFα in combination with IL-1α (27.5% vs 16.0%, P=0.02) compared to the ankle; low cytokine concentrations did not affect sGAG release. Significantly more PGE. 2. was produced by knee cartilage compared to ankle cartilage however no significant difference in nitrite production was noted. Cartilage from the knee and ankle has a divergent response to stimulation by pro-inflammatory cytokines, with high concentrations of TNFα alone, or in combination with IL-1α amplifying cartilage degeneration. This differential response may account for the high prevalence of knee arthritis compared to ankle OA and provide a future pharmacological target to treat post traumatic arthritis of the knee

Juvenile idiopathic arthritis(JIA) is chronic inflammation commonly occurs in early childhood. Recently, biological therapies are used in JIA at the early stage as same as rheumatoid arthritis, due to retain joint cartilage. However, some of young patients have painful knee problems requiring knee replacement. We experienced 4 cases of JIA treated by knee arthroplasty. The average age at surgery was 33.5 years (range, 26–38 years) with a mean follow-up of 9.5 years (range, 5–18 years). We evaluated the knee range of motion and functional outcomes by the Knee Society Score (KSS), implant selection, postoperative complication, surgery of another joint. Mean range of motion improved from 76.3° (0°–120°) at pre-operation to 110.6° (80°–130°) at post-operation (P<0.05). Mean KSS increased from 47.3 ±20.1 preoperatively to 86.9 ±11.1 (P<0.01) at last follow-up and the mean KSS function from 27.5 ±25.9 to 62.5±20.2 at last follow-up (P<0.05). All of the TKAs were cemented, 5 were cruciate-retaining implant designs, whereas 2 TKAs had constrained posterior stabilized implant designs. Patellar resurfacing was undergone in all knees. Bone graft required in 1 knee within severe knee deformity. Complication were occurred in 5 knees. Medial instability in 2 knees. Skin necrosis, MCL avulsion, recurrence of the synovitis are one in each. All cases had polyarticular type. Previous THA had undergone in 5 hips, synovectomy in 3 knees, foot surgery in 2 feet. At latest follow-up, 1 of 8 TKAs (12.5%) had been revised, and had revision of its polyethylene exchange only. Patients with JIA often have valgus alignment with a flexion contracture and poor bone quality is also frequently compromised. Prescribed immunosuppressive medication or biological agents may cause to infection. In our series there were no infection, but some of these need much more soft tissue release because of severe deformity and flexion contracture. TKA survivorship for JIA is inferior to that typically seen in younger patients with osteoarthritis or rheumatoid arthritis. The knee of conservative therapy were often caused to severe functional limitations. Timimg of TKA may be indicated no matter how young the patient is. Extending timing of TKA may leads to worse outcome and postoperative function. But it may be caution that the surgical exposure can be difficult, because of stiffness, flexion contracture, bony deformity, osteopenia

Purpose. Bone marrow multi-potent stromal cells represent a heterogenous source of cells with great promise in joint cartilage regenerative medicine. However, due to their low numbers upon harvesting, MSCs need to be expanded without compromising their capacity to form chondrocytes (cartilage cells). To date there is no consensus on how to expand MSCs in order to maximize their potential for cartilage repair and nor are there any specific cell signatures of MSCs with chondrogenic propensity. Emerging evidence suggest that marrow stem cells exist in a hypoxic microenvironment. On this basis and in addition to cartilages natural existence in hypoxic environment (1–7% O2), we hypothesized that MSC expansion under hypoxia will result in the enrichment of MSCs with predilection to chondrocytes compared to expansion under the conventional culture conditions of 21% O2. Method. Bone marrow was harvested from the iliac crest of 4 donors (mean age 43.5 years) post informed consent and local ethical approval. Fifteen million mono-nucleated (MNCs) cells were seeded into T150cm2 culture flasks in the presence of alpha MEM plus 10% FBS and 5 ng/ml FGF2. Similarly, 0.25 million MNCs were seeded in 10cm petri dishes for colony forming unit-fibroblastic (CFU-f) assay. The seeded flasks and petri dishes were cultured under normoxia (21% O2) and hypoxia (3% O2). Petri dished cells were cultured for 14 days and those in flasks were cultured until passage 2 (P2). Developed cell colonies per dish were revealed after crystal violet staining. Colony counts and diameters were recorded. P2 cells were treated with a panel of antibodies for cell surface marker analysis by fluorescent activated cell sorting (FACS) flow cytometry. P2 cell pellets were formed and induced towards cartilage in a defined serum free medium containing TGFβ1. Pellets were cultured for 3 weeks under normoxia and were then processed for histological, biochemical and gene expression analyses. Results. The mean number of cell colonies was 1.25-fold higher after hypoxia culture relative to normoxia. There were no differences in colony diameters. A panel of common protein signatures (CD29, CD90, CD105 and CD151) for stem cells declined in expression after expansion in hypoxia. However, other signatures (CD13, CD34 and CD44) expression level increased under hypoxia, whilst CD73 expression was unchanged. Pellets from hypoxia-expanded MSCs showed on average a 1.4-fold increase in chondrogenic capacity as judged by glycosaminoglycan (GAG) matrix per DNA content relative to normoxia pellets. The gene expression of collagen II, SOX9, aggrecan and matrillin-3 increased by 1.2-, 2-, 1.3- and 1.5-fold, respectively, in pellets formed from hypoxia-expanded stem cells relative to their normoxia counterparts. Conclusion. Expansion of stem cells under hypoxia potentiates their capacity to form cartilage with improved cartilage properties. However, there is a need for signatures to identify stem cells with propensity to form cartilage