View clinical trials related to Hemarthrosis.
Filter by:Hemophilia is a bleeding disorder (deficiency of a blood clotting factor/ protein) resulting in bleeding in joints and muscles. As patients continue to bleed into their joints they develop progressive joint damage leading to joint contractures, disability and days missed from work and school resulting in chronic debilitating pain and compromised quality of life. Current therapy is the administration of the missing protein or factor concentrate on a scheduled basis to prevent bleeding into the joints referred to as prophylaxis. This factor concentrate is expensive ~ $ 3,000 - 6,000 per infusion/ week in a child weighing 20 kg translating into $ 77,000 /yr for life. This regimen has been shown to be effective to prevent joint bleeds but the timing is unclear and not based on adequate evidence. Currently joint damage is diagnosed using MRI which is expensive and requires sedation in children < 6 yrs of age. Therefore there is a need for a user friendly tool such as a ultrasound to monitor for the development of joint disease and tailor treatment based on an individual child's needs. This would also enable differentiating a joint bleed from a soft tissue bleed which present similarly and duration of treatment tends to be longer for a joint bleed. Acharya et al have previously shown that ultrasound is comparable to MRI for the diagnosis of hemophilic joint disease in hemophilia patients over the age of 6 years. However, the diagnostic findings in children < 18 years with hemophilia on ultrasound is not well defined(1). The hemophilic synovium after repeated joint bleeds reveals the development of new vessels which are fragile and contribute to recurrent joint bleeds. Acharya et al have previously shown that angiogenesis, a process of new vessel formation is active in hemophilic synovium and angiogenic markers were significantly elevated in hemophilic patients with joint disease when compared to those without (2). Since ultrasound can detect these new vessel changes in the hemophilic synovium in hemophilia patients with joint disease and hemophilia patients with joint disease demonstrate elevated markers of new vessel formation these investigators would now like to determine whether radiological findings of hemophilic joint disease correlate with serological angiogenic markers. This may enable the development of biomarkers for hemophilic joint disease. Findings from this study will enable the development of ultrasound as a user friendly tool in the hemophilia clinic in order to understand whether every pain and swelling in a joint is actually a joint bleed or soft tissue bleed and to monitor for joint changes to institute or augment scheduled factor infusions ( prophylaxis). This will also result in significant improvement in quality of life with tailored prophylaxis .
This trial is designed to assess if there is evidence of subclinical joint bleeding on MRI/X-Ray in adults with severe Haemophilia A while on standard and/or pharmacokinetically tailored prophylaxis regimens. Participants with severe Haemophilia A will have longitudinal MRI and XRay imaging of their elbows, ankles and knees at 0, 6 and 18 months while on standard ( 0-6 months) and then pharmacokinetically tailored (7-18 months) recombinant Factor VIII prophylaxis.
Primary Objective The efficacy of intra-articular bevacizumab injection for secondary prevention of recurrent hemarthroses for hemophilia patients who has had target joints with chronic synovitis. The safety profiles of intra-articular bevacizumab injection for hemophilia patients. Study Population Adult hemophilia patients who have had one or more target joints with chronic synovitis and recurrent hemarthroses. Investigational therapy: Intra-articular injection of Bevacizumab (20 or 40 mg/ 0.8 or 1.6 ml/ dose) every month (28 days) for up to 4 months, depending on the improvement of target joint bleeding. Study Design The estimated study period is between Jan 2014 and Dec 2015. Totally 10 joints will be enrolled for this pilot study. Before enrollment, the joint(s) will be evaluated for their severity both clinically (by 10-point Pain Score, range of motion for the target joint, and World Federation of Hemophilia Score) and by MRI (using the compatible MRI scales developed by International Prophylaxis Study Group [IPSG]). Intra-articular injection of bevacizumab will be administered, after prophylactic factor supplementation, every month for up to four injections. In the first four patients, 20mg of bevacizumab will be administered. If there are no Gr 3 or Gr4 dose-limiting toxicities, bevacizumab dose will be escalated to 40mg in the other 6 patients. Before every procedure, the plasma and the synovial fluid samples will be collected for VEGF quantification for the correlative biomarker study. After completing the protocol treatment, the efficacy parameters as well as the safety profiles will be evaluated.
Hemophilia is a recessive X chromosome linked genetic disorder of blood coagulation that affects about one in every ten thousand people. Hemarthrosis, which you can begin in childhood, promptly leads to degenerative changes of the articular cartilage which culminate in deformity and degenerative changes early, known as hemophilic arthropathy, which is the most common complication of hemophilia. Aside administration of clotting factor, treatment should address the degenerative changes already present in patients joints. Our objective is to evaluate the effectiveness of articular washing followed by infiltration with corticosteroids and hylan G-F 20, followed by a program of home exercises and/or academy as the previous level of hemophilia patients, in relation to pain relief, and improved function and quality of life.