View clinical trials related to Rheumatoid Arthritis.
Filter by:The major goal of this project is to conduct a randomized, controlled trial of the impact of a practical, low cost physical activity intervention on fatigue among persons with rheumatoid arthritis (RA). Fatigue has been identified as a major concern for individuals with RA, and is considered a core outcome measure for RA. Our recent study of the sources of fatigue identified physical inactivity as a primary predictor of fatigue. Studies have examined the impact of exercise interventions on RA outcomes, but most of these interventions have focused on pain or function as outcomes. The few exercise studies examining fatigue suggest that increasing physical activity reduces fatigue, but the interventions have been resource-intensive, requiring specially trained personnel to administer them, highly structured activities, and/or attendance at classes or a specified facility. Each of these components increases the cost and barriers to implementation of an intervention. Pedometers have been shown to be an effective means of increasing physical activity, and could form the basis of a simple means to increase physical activity. This project will test the effect of a simple pedometer-based intervention, with two incremental degrees of guidance, on increasing physical activity and decreasing fatigue. Three groups (n=40 in each) will be studied: a control group with an educational pamphlet only, a pedometer-only intervention group, and a pedometer group with step targets. Both intervention groups will keep step-count diaries. Groups will be followed over 20 weeks. We expect that (1) the pedometer-only intervention group will increase activity more than the education group, and the group with step-count targets will demonstrate even greater increases in activity; and (2) greater increases in activity will be associated with greater decreases in fatigue. Secondary outcome measures will include depressive symptoms, self-reported sleep quality, and body composition. Our overall goal is to demonstrate an effective, yet simple and low cost, physical activity intervention to decrease fatigue that could be broadly accessible and have the potential for wide implementation.
This is a collaborative study with 11 Occupational Therapy (OT) departments in North-West England. The OTs provide arthritis gloves to 25% of out-patients with inflammatory, rheumatoid and osteoarthritis. The pressure applied by the glove(s) may help relieve hand pain, swelling and stiffness. People find they help but there is little research testing this. Of the five small studies published: two found little or no benefit; one found similar effects from arthritis and ordinary thermal gloves; two found some benefits. Testing if gloves work helps therapists and patients judge if they will help. This is a feasibility study to help us plan a future trial testing if arthritis gloves work for people with arthritis. We aim to find out: the rate we can recruit people to the study; if OTs can assess people's hands and provide gloves as agreed; how many people do we need to take part in a trial; what do people think (if any) is the gloves' most important effect and how long should we test them for? We will analyse the data to see what effect the gloves have. The study will last 12 months. People will get arthritis gloves as part of their usual care. The OTs have agreed a standard way of assessing and providing the gloves to ensure best practice across departments. The assessments include: difficulties using hands, pain and stiffness levels, and measuring hand and finger joint size and movement. People can take part if they: have one of the three types of arthritis; are willing to wear Isotoner three-quarter length gloves; can attend the usual 4 week review appointment for re-assessment; will allow us to use their anonymized hand assessments. We will also interview some people about their views of the assessment and their treatment. Each patient will be involved for 4-8 weeks.
Osteoarthritis of the knee is one of the most common causes of disability among elderly. Arthritis rheumatoid is an autoimmune disease which causes multi articular arthritis, such as knee osteoarthritis. As the disease progresses the cartilage become frustrated, surrounding bone react to become thicker and inflammation occurs in subchondral bone seen in T2-weighted MRI as increase in signal density. Patients are treated initially by pain management. In patients who don't response to first line treatment invasive treatment like total knee replacement is done. The investigators designed this clinical study with the aim of evaluating therapeutic effects of intra-articular injection of bone marrow mesenchymal stem cells (BM-MSCs) in 60 patients with knee osteoarthritis.
This is an open-label, single-arm, multicenter, efficacy, and safety maintenance study of the Phase 1 Study CT-P10 1.1. This study is designed to assess the long-term efficacy and safety of CT-P10 co-administered with MTX and folic acid in patients with RA who have completed the scheduled visits in Study CT-P10 1.1
This study is to evaluate the safety and the effectiveness of treatment with tacrolimus and biological agents.
Many studies have been conducted to evaluate the role of pulse steroids in early rheumatoid arthritis (RA) but no consensus exists. The aim of this study is to study the efficacy of various treatment regimens in early RA. Methods: This is a randomized open-labeled trial. Patients were randomised into three groups. In group A, patients were treated with single drug (methotrexate 15 mg/wk). The patients in Group B were treated with a combination of DMARDS (Methotrexate, sulfasalazine and hydroxychloroquine). The patients in Group C received combination therapy as in group B and 3 pulses of methylprednisolone intravenously.
In recent years, ion channels have emerged as new therapeutic targets for pain. Among these channels, ASICs (Acid Sensing Ion Channels) are of particular interest because they are directly activated by extracellular acidity, which is a major cause of pain. Indeed, many painful conditions such as ischemia, inflammation, tumor development or tissue incision are accompanied by tissue acidification. ASIC are excitatory ion channels that are expressed in neurons, including nociceptive sensory neurons. In humans, the use of amiloride, a nonspecific inhibitor of ASICs, has demonstrated their role in the perception of pain induced by subcutaneous injections of acidic solutions. ASICs thus appear as new candidates capable of mediating pain in humans. A growing number of data suggests that, in addition to protons, ASICs may also be activated by one or more endogenous compounds produced during inflammation. The purpose of this research project is to identify these compounds by testing the effects of human inflammatory exudates on ASICs activity. The discovery of such compounds would definitely validate ASICs as novel therapeutic targets for pain treatment in humans
This cross-sectional, non-interventional, retrospective chart review will compare the efficacy and safety of biologic monotherapy and biologic and methotrexate combination therapy in patients with rheumatoid arthritis who have had an inadequate response to prior treatment with disease-modifying anti-rheumatic drugs including methotrexate. Data will be collected from patients who have been on first-line biologic treatment for at least 6 months.
By using functional MRI the investigators have recently shown that TNFi elicit rapid changes in brain function linked to the perception of RA [5]. Functional MRI represents a method allowing detecting tiny changes in neuronal activity by measuring alterations of blood flow in the context of neuronal activation. TNFi rapidly reversed the widespread activation of brain centers involved in pain such as the thalamus and the somatosensoric cortex, as well as those involved in the control, of mood and emotions such as the limbic system. Moreover, as small phase I study with 10 patients with RA showed that high brain activity detected in the functional MRI predicts clinical response to Certolizumab Pegol after 1 month, suggesting the central nervous system activity may be used as a tool to predict response to TNFi [8]. The rationale of this study is to test whether response to TNFi can be predicted by using functional MRI.
The purpose of this study is to assess the impact of JNJ-38518168 on rheumatoid arthritis (RA) disease-related biomarkers in synovial biopsy tissue and blood in participants with active RA despite methotrexate (MTX) therapy and to assess the safety and tolerability of JNJ-38518168 over one year.