View clinical trials related to Cartilage Degeneration.
Filter by:A randomized controlled clinical study was conducted to elucidate the relationship between the lower extremity biomechanics of patients undergoing early gait training after ACLR surgery.The relationship between the biochemical characteristics of cartilage and the biomechanical risk index were proposed to providing exercise guidance and training for middle-aged people and it is suggested that it can prevent and reduce the risk of cartilage degeneration early after operation.
The purpose of this study is to demonstrate the effect of bioceramic implants on the repair of human bone defects, and to explore the application of bioceramic materials in bone defects, bone implantation, and bone fusion. The surface microstructure of β-tricalcium phosphate bioceramic implants can be effectively controlled to guide the regeneration of bones, promote the restoration of bones, accelerate the speed of recovery, and improve bone quality, which is of great clinical and social significance.
Currently the diagnosis of OA is based on radiographs and clinical findings, which is limited to detecting late-stage disease. There is a pressing, unmet clinical need for robust assessment of early changes in cartilage health. Towards this goal, extensive efforts are ongoing to develop quantitative MRI for cartilage matrix analysis. MR T1ρ and T2 relaxation times have shown to be promising imaging biomarkers for early cartilage degeneration and prediction of disease progression. However, many challenges remain to clinically applying these techniques, including lack of standardized acquisition and quantification methods, and long acquisition times. The study aims to develop novel, fast and reproducible MR T1ρ and T2 relaxation time imaging methods on MR systems from multiple vendors and establish a platform for standardization and cross validation of these measures as a tool for clinical trials using such techniques. Following method validation, patients at risk for osteoarthritis will be tested.
Recently there has been a growing interest in the role of subchondral bone in knee arthritis, both in its etiology and evolution and in its clinical significance. It has now been widely demonstrated that changes in the subchondral bone can develop both as a cause and as a consequence of joint degeneration and it is now accepted in the scientific community that the presence of these changes is of clinical importance, causing pain and an inflammatory state that can contribute to the evolution of arthrosis arthropathy. Recently the use of mesenchymal cells obtained from the bone marrow has been proposed for the treatment of gonarthrosis by intra-articular injections. Even more recently, treatments have been studied and proposed for the treatment of the bone-cartilage interface in knees affected by osteoarthrosis, using autologous bone marrow concentrate, with promising results.
This study was aimed to evaluate the efficacy and safety of Autologous Adipose-derived Mesenchymal Stem Cell Gel combine with High tibial osteotomy therapy in the treatment of cartilage damage in the knee. Investigator believe that this method will enable patients to recover better knee function and more repair of knee cartilage.
Unicompartmental knee osteoarthritis (OA) is a common finding especially in patients with lower limb malalignment and previous meniscectomy. Among the various treatment options, in recent years there has been an increasing attention towards the use of biologic agents, such as platelet rich plasma and mesenchymal stem cells, as intra-articular injective approaches to relieve pain and restore joint function. Anyway, the sole intra-articular administration of these agents may not lead to satisfactory outcome in a relevant percentage of patients. In fact, unicompartmental osteoarthritis is not only characterized by degeneration of the articular cartilage, but also by pathologic changes in the subchondral bone, both at the tibial plateaux and in the femoral condyle. Magnetic resonance imaging reveals, in many cases, alterations of the subchondral tissue known as "bone marrow edema", which is a sign of bone overload and play a significant role in the progression of unicompartmental OA and is responsible of OA-related symptoms. Therefore, concurrent treatment of both the subchondral bone damage and intra-articular degeneration could led to better outcome for patients affected by unicompartmental OA: the aim of the present pilot trial is to assess the safety and describe the clinical outcome following concurrent intra-articular and subchondral bone application of Bone Marrow Concentrate (BMC). BMC is an autologous product rich in mesenchymal stem cells, which have immuno-modulatory and throfic properties and are able to restore the joint homeostasis by reducing the inflammatory distress traditionally associated to OA. BMC will be collected directly in the operating room from the anterior iliac crest or the tibia by using the MARROW CELLUTION kit (Geistlich, Switzerland), which allows to obtain BMC without the need of centrifugation processes. Approximately 9-10 ml of BMC will be harvested: 6 ml will be injected, under fluoroscopic guidance, in the tibial emiplateaux (approx 3 ml) and in the femoral condyle (approx 3 ml) presenting MRI evidence of bone marrow edema. The remaining amount of BMC will be administered intra-articularly to address articular tissues (cartilage, menisci and synovium). Twenty-five patients affected by unicompartmental knee OA will be included in the present pilot trial and treated in a "Day-Surgery" regimen. They will be followed up at 3, 6, and 12 months' after treatment by clinical questionnaires and radiographic evaluations (x-rays at 6 and 12 months, MRI at 12 months' f-up). Any intra-op and post-op adverse events will be documented.
Many patients with osteoarthritis of the knee fail non-operative measures and elect to have knee arthroplasty to improve their quality of life. If successful, intra-articular mesenchymal stem cell (MSC) injections into the knee may offer another viable non-operative treatment modality. Additionally, this modality may have reparative or regenerative potential, which could lead to the first treatment for osteoarthritis that treats the underlying disease as opposed to symptomatic control. Additionally, there are no acceptable non-surgical treatments for focal chondral defects of the knee. Surgical treatments that do exist have diminished outcomes if performed on patients older than age 30-40 years. If successful, intra-articular MSC injections into the knee would represent the first non-operative treatment for focal chondral defects and also represent a potential option for treatment in patients over the age of 30-40 years. This trial will be a prospective, single-center phase I pilot study to evaluate the safety and tolerability of a single intra-articular injection of autologous bone marrow-derived MSCs in 16 subjects, 8 who have knee osteoarthritis and 8 who have a focal chondral defect in the knee. Patients will undergo a bone marrow harvest procedure at the Dahms Clinical Research Unit (DCRU) of University Hospitals Cleveland Medical Center. MSCs will be isolated and expanded. After approximately 2-3 weeks, patients will return for an intra-articular injection of 50x106 MSCs Subsequent study visits will occur on post-injection day 7 and months 2, 6, 12, and 24. Safety of intra-articular injection of MSCs will be evaluated at study visits by interval history, physical examination and assessment of any adverse events that are observed/reported. Additionally, efficacy will be evaluated by having patients complete functional outcome measures including: Visual Analog Score (VAS) for pain, Knee Injury and Osteoarthritis Outcome Score (KOOS), International Knee Documentation Committee (IKDC) Subjective Knee Form, and Lysholm Knee Scale. These will be completed at the pre-treatment visit and then repeated at the 2, 6, 12, and 24-month follow-up visits. Lastly, T1 rho and T2 mapping on magnetic resonance imaging (MRI) will be used to assess for improved cartilage quality after intra-articular injection of MSCs. An MRI will be obtained at the pre-treatment visit. At the 12 and 24 month follow up visit, additional MRIs will be obtained and analyzed to compare the pre-treatment MRI to post-treatment MRIs.