View clinical trials related to Arthritis.
Filter by:Prospective, observational study to assess sarcopenia across three chronic inflammatory diseases: chronic liver disease, Inflammatory Bowel Disease, Rheumatoid Arthritis both before and after therapeutic intervention (standard of care treatment i.e. nutrition/exercise; biologic for IBD etc).
Studying the effect of laser puncture on rheumatoid arthritis patients
Rheumatoid arthritis (RA) is a chronic inflammatory disease that primarily causes pain, swelling and stiffness in the joints. The disease may reduce normal functioning and thereby quality of life. Patient education (PE), with the aim of supporting patients to self-manage their disease is an important part of the treatment and care to patients with RA. PE supports people in living with RA by offering knowledge of the disease, symptoms and treatment as well as guidance in coping with the disease in everyday life. In recent years, the number of people with RA has risen and in general people lives longer. This places new demands on the healthcare system for alternatives to conventional care, e.g. through web technology and remote care. Often PE is provided through face-to-face interactions with health professionals at the hospital and thus far, only a small number of studies have been conducted within the area of web-based PE targeting people with RA. A few studies within RA and other chronic diseases shows that online tools and online educational programs may enhance patient's knowledge of the disease and treatment and improve self-management and quality of life. Internet and technology is a great part of everyday life, however, variation is seen in computer skills and likewise in health literacy skills. Even so, PE based on web technology may have several advantages, e.g. the accessibility and the possibility to seek for information as needed and repeatedly in familiar surroundings and possibly with relatives. Moreover, the integration of words and images can promote deeper understanding and learning since both auditory and visual channels are used. Possible disadvantages may be related to the absence of face-to-face contact with healthcare professionals. Given the need for alternative solutions to the conventional face-to-face contact, the investigators have developed an e-learning program targeting newly diagnosed patients with RA. The purpose of the program is to support self-management of the disease. The program takes into consideration peoples different competencies and assumptions by presenting information in an easy, inspiring and entertaining way. The program consists of three learning modules covering knowledge of the disease, medication, examinations, complications and daily living with RA, e.g. coping with emotions, pain, fatigue, physical activity, work etc. In keeping with different ways of learning and to support people's different competencies, the program offers a combination of animations, graphics, videos, podcasts, quizzes, written text and spoken words. Given the limited evidence about the effectiveness of web-based PE in RA, the intention behind the study is to evaluate the e-learning program. The project will be divided into three parts. In the first part the effect of the e-learning program will be evaluated. Approximately 200-230 patients from four rheumatology clinics in Denmark will be included. Half of the participants will receive education at home through the e-learning program and the other half will receive conventional education at the hospital. The effect of PE will be evaluated through questionnaires covering self-efficacy, knowledge of RA and medication, medication taking, health literacy skills and quality of life. Additionally, disease activity, physical functioning, pain and fatigue will be measured. Furthermore, the investigators will examine the use of the e-learning program, such as time consumption and completed modules. Finally, telephone contacts from patients to the outpatient clinics will be measured to investigate possible causal relationships between the information provided through PE and the need for additional information or guidance related to self-management. The number of out-patient visits in the clinic will also be measured. In the second part the investigators will explore the perceptions of receiving PE through the e-learning program from the perspective of patients with RA. This will be explored through individually interviews with approximately 20-25 patients. In the third part the complexities in the e-learning program to improve chances of success in implementation of the technology in clinical practice, i.e. outside the project, will be explored. Through focus group interviews with nurses and doctors involved in the project, the investigators will explore perspectives of using the program. The interviews will be based on a framework covering both successes, challenges and failures in relation to the technology, the patient group, values and the organisation. Furthermore, the investigators will revisit the patient interviews from the second part in order to obtain information about these aspects from the patient perspective. The investigators hypothesize that the e-learning PE program will be superior to standard face-to-face PE in improving self-efficacy.
The aim of this study is to describe macro- and micro anatomical structures, including investigating vessels running in osseous pores in finger joints from participants with rheumatoid arthritis (RA) using histology and different imaging modalities. The perspectives are to increase understanding of the macro- and micro anatomic basis for bone erosions in RA, and possibly to provide new insights to the monitoring of patients with RA.
The purpose of this study is to compare the safety and efficacy of secukinumab and ustekinumab in patients with active psoriatic arthritis who showed failure to previous TNFα-inhibitor treatment
Inhibitors of tumour necrosis factor (TNFa) reduce inflammation in patients with juvenile idiopathic arthritis (JIA), but only 20-40 percent achieve a state of no or very little disease activity. Tailored glucocorticoid joint injections are widely used (usually in general anaesthesia), but no controlled studies have addressed the effect of this approach. In Norway there are unique possibilities for early interventions, rapid escalation of medication and individualised therapy. The investigators aim to find the optimal ways to increase disease control and improve quality of life for JIA patients. The hypothesis is that JIA patients starting TNF-inhibitors with added steroid injection of inflamed joints, will lead to improved outcomes compared to TNF-inhibitors with no joint injections, and that therapeutic drug monitoring, modern imaging and biologic and clinical profiling can be utilised to characterise JIA patients with different anti-TNF responses. MyJIA is a national investigator initiated 48 weeks RCT of JIA patients starting TNF-inhibitors; 202 JIA patients will be randomised at baseline to A) concomitant intra-articular glucocorticoid injections versus B) no injections. Primary endpoint is the rate of sustained remission from weeks 24 to 36. Possible risk factors for not reaching remission will be analysed including clinical characteristics, drug antibodies/serum concentrations, patients' reported health status and preferences, molecular signalling (based on transcriptional, cellular and genetic risk) and synovitis detected by modern imaging (ultrasound and whole-body MRI). Patients will be recruited from all Norwegian health regions through an established collaboration. Unit of Paediatric Rheumatology, Oslo University Hospital, with an extensive research track in this field, will be the coordinating centre. Broad research cooperation across disciplines is established. The trial is highly innovative in evaluating treatment options and strategies to individualise and optimise the efficacy and safety of JIA treatment.
Rheumatoid Arthritis (RA) is an inflammatory disease of the joints causing pain, stiffness, swelling and loss of joint function. This study will assess how effective Upadacitinib is in changing the disease symptoms in Canadian participants with RA. Upadacitinib is a drug approved for the treatment of moderately to severely active rheumatoid arthritis. Adult Canadian participants with moderate to severe RA who have been prescribed upadacitinib by their physicians will be enrolled. Approximately, 390 participants will be enrolled this study, in multiple sites within Canada. Participants will receive Upadacitinib as prescribed by the physician and will be followed for approximately 24 months. There will be no additional burden for participants in this trial compared to their standard of care. Participants will attend regular visits during the course of the study at a hospital or clinic and will be asked to provide additional information by questionnaire at each visit.
This is an open-label pilot study in patients with rheumatoid arthritis (RA). All patients will receive SOFUSA Enbrel 25 mg once weekly. The dose will be increased to 50 mg if the dose escalation criteria are met during the dose escalation phase of the study.
Many individuals with osteoarthritis (OA) (up to 45%) are referred to an orthopaedic surgeon for a joint replacement prematurely or will not be candidates for surgery. These individuals need appropriate (non-operative) care to help reduce their pain and enhance their mobility. We are studying the use of innovative technology to help physicians give physical activity advice for patients to become more active and provide free online resources to help patients understand OA self-management and exercise, especially when they have barriers to accessing formal care. Individuals with OA that are referred to a specialized clinic will receive one of three interventions: usual care (handout on resources), a physical activity prescription by a doctor, or the prescription and a link to a free web-based platform (website) on non-operative management of OA with patient education and exercise videos. Our goal is to help with non-operative management strategies to improve quality of life, reduce pain, improve mobility, and possibly delay or prevent a joint replacement. Osteoarthritis is a condition where people feel joint pain or stiffness. Joints are the body parts where two bones join together with softer material (cartilage) between them. In osteoarthritis, this cartilage wears down. It is the biggest cause for disability worldwide. Helping people with osteoarthritis starts with education, physical activity, and physiotherapy. Doctors can also prescribe braces, injections or medications. For severe osteoarthritis when nothing else helps, surgery can be done to replace the joint. Doctors often refer patients for surgery too soon. Skipping steps of care may mean unnecessary surgery and longer wait times. The Musculoskeletal Rapid Access Clinic (now called Clinic) in London was set up to solve these problems. They screen patients before referring them to a surgeon, and do not refer almost half of patients. Our goal is to support these patients with new ways to make their non-surgical treatment better. The first way is through physical activity 'prescription'. It works well for other chronic conditions and patients say it helps. We don't know how well it works for people with osteoarthritis. Most doctors have little time, training or experience for prescribing physical activity. Technology can make it easier for doctors and patients. We have designed a tool to help doctors prescribe physical activity and a smartphone app to track patient activity. We have also created a free website. This includes patient education, exercise videos, and virtual physiotherapy. This can be important for individuals who can't access in-person care.
The RESET-RA study will assess the safety and efficacy of the SetPoint System (study device) for the treatment of adult patients with active, moderate to severe rheumatoid arthritis who have had an inadequate response or intolerance to biologic or targeted synthetic Disease-Modifying Anti-Rheumatic Drugs (DMARDs). The study device contains a miniaturized stimulator (implant) that is surgically placed under general anesthesia on the vagus nerve through a small incision on the left side of the neck (implant procedure). The study will enroll 250 subjects at 40 sites. All eligible subjects will undergo the implant procedure. Half of the subjects will receive active stimulation (treatment) and the other half will receive non-active stimulation (control). After completing primary endpoint assessments at Week 12, there will be a one-way crossover of control subjects to active stimulation and a 180-week open-label follow-up with all subjects (treatment and control) receiving active stimulation to evaluate long-term safety.