The objective of this study was to assess the biomechanical stability of three types of chondral flap repair and a hydrogel scaffold implantation on the acetabular articular surface using a physiological human cadaveric model. Chondral flaps were created in the antero-superior zone of the acetabulum in a series of human cadaveric hip joints. The chondral flap was repaired by fibrin glue, cyanoacrylate, suture technique and an agarose hydrogel scaffold sealed with fibrin glue using 6 hips in each case. After each repair, the specimens were mounted in a validated jig and tested for 1500 gait cycles. In order to determine the stability of the repair, specimens were evaluated arthroscopically at specific intervals.Objective
Methods
Local anaesthetic has been reported to have a detrimental effect on human chondrocytes both Human chondrocytes were grown under standard conditions. Cells were exposed to either lignocaine (0.5, 1, 2%), levobupivacaine (0.125, 0.25, 0.5%), bupivacaine (0.125, −.25, 0.5%) or ropivacaine (0.1875, 0.375, 0.75%) for 15 minutes. Cells were also exposed to a local anesthetic agent with the addition of magnesium (10, 20, or 50%). Cells exposed to media or saline served as controls. The MTS assay was used to assess cell viability 24-hours after exposure.Introduction
Methods
The pathogenesis of frozen shoulder remains unclear. Fibroblast proliferation has been implicated in the pathogenesis with subsequent fibrosis of the capsule. We studied patients undergoing manipulation under anaesthesia for frozen shoulder. All fitted Codman’s criteria for the diagnosis. Normal saline was injected and then aspirated from 14 patients undergoing manipulation under anaesthesia for treatment of frozen shoulder and from 15 patients undergoing shoulder arthroscopy for other pathology. Human fibroblasts were cultured from sections of human anterior abdominal wall obtained from patients undergoing elective surgery. The effect of frozen shoulder aspirate versus normal control on human fibroblast proliferation and apoptosis was measured. Cellular proliferation was determined using the Promega celltitre 96TM non-radioactive cell proliferation assay.
The pathogenesis of frozen shoulder remains unclear. Fibroblast proliferation has been implicated in the pathogenesis with subsequent fibrosis of the capsule. We studied patients undergoing manipulation under anaesthesia for frozen shoulder. All fitted Codman’s criteria for the diagnosis. Normal saline was injected and then aspirated from 15 patients undergoing manipulation under anaesthesia for treatment of frozen shoulder and from 15 patients undergoing shoulder arthroscopy for other pathology. Human fibroblasts were cultured from sections of human anterior abdominal wall obtained from patients undergoing elective surgery. The effect of frozen shoulder aspirate versus normal control on human fibroblast proliferation and apoptosis was measured. Cellular proliferation was determined using the Promega celltitre 96TM non-radioactive cell proliferation assay. Proliferation of human fibroblasts was significantly increased in the cells treated with aspirate obtained from frozen shoulder patients versus both negative control (growth medium only) and control (normal shoulder aspirate) at concentrations of 105, 25% and 50%. This increase in proliferation was in a dose dependent manner, with the most significant increase seen in cells treated with a 505 concentration of frozen shoulder aspirate. Apoptosis was upregulated at all concentrations of shoulder aspirate, but only achieves statistical significance at 255 and 505 concentrations. This study supports the hypothesis that frozen shoulder results from alteration in fibroblast regulation.
