View clinical trials related to Polymyositis.
Filter by:Polymyositis (PM), dermatomyositis (DM) and inclusion body myositis (IBM)belong to a group of inflammatory muscle disorders, of unknown cause, that are characterised by skeletal muscle inflammation and progressive muscular weakness, which can be debilitating and chronic in nature (occasionally fatal). The current treatment options for these conditions are steroids and various other immunosuppressive drugs. However, these are usually only partially effective at reducing symptoms, and their toxic side effects also limit their usefulness. In order to develop more specific treatments for myositis in the future (and therefore more effective), it is important to understand the exact mechanisms that cause the disease in the first instance. In other similar inflammatory diseases such as rheumatoid arthritis (RA) and systemic lupus (SLE), it is known that changes to the Human Leukocyte Antigen(HLA), as well as certain inflammatory cytokines, are involved in both the development and expression of the disease. As many of the inflammatory mechanisms that cause damage in PM, DM and IBM are similar to those in RA and SLE, it seems likely that similar genetic factors will also be involved in the development and expression of PM, DM and IBM. In order to understand the genetic aspects / causes of myositis, and ultimately develop more effective treatment therapies in the future, patients with PM, DM or IBM, will be asked to give 20 mls of blood. These blood samples, along with the patient's clinical details, will then be sent to the Centre for Integrated Genomic Medical Research (CIGMR), at The University of Manchester, where all of the genetic analyses will take place. By understanding the genetic cause of the disease, it should be possible to design specific drugs for treating the condition in the future.
To investigate the effect of the interleukin-1 (IL-1) blocking agent, anakinra, in patients with treatment-resistant inflammatory myopathies. Patients and methods: Fifteen patients with refractory polymyositis (PM), dermatomyositis (DM), or inclusion body myositis (IBM) were treated with 100 mg anakinra subcutaneously per day during 12 months. Outcome measures included myositis disease activity score with improvement defined according to The International Myositis Assessment and Clinical Studies Group (IMACS) and for muscle performance the functional index of myositis (FI). In addition repeat muscle biopsies were performed
This study determined the efficacy, safety, tolerability and the PK profile of BAF312, a novel immunomodulator, in polymyositis and dermatomyositis patients who were not responsive to traditional immunosuppressive and/or corticosteroid therapy. The study consisted of a 12 week, randomized, placebo controlled period, followed by another 12 weeks where all subjects received BAF312 treatment.
The aim of this study is to investigate the hand function in patients with poly-and dermatomyositis and compare this to healthy individuals and norm values and secondly if hand function correlates to activity performance and health related quality of life. The study is a cross-sectional study. To assess hand function the investigators will measure grip force with Grippit and arm/hand mobility using EPM-ROM scale. The activity performance will be measured with Myositis Activities Profile and health related quality of life will be assessed with SF-36. The investigators' hypothesis is that hand function is reduced in comparison to the healthy population and that hand function affects both activity performance and health related quality of life.
Therapeutical trial in patients with idiopathic polymyositis and dermatomyositis is proposed. The study will investigate the safety and efficacy of combined methotrexate + glucocorticoids treatment compared with glucocorticoids alone. This will be a randomised, open-label, assessor-blind, international multicenter trial, performed in several European centres interested in research on inflammatory myopathies. A total number of 50 patients with polymyositis/dermatomyositis will be randomised into two groups (1: Methotrexate + glucocorticoids and 2: Glucocorticoids only). Patients will be equally distributed between the two groups providing 25 patients per treatment arm. The randomisation will be based on random numbers generated by a computer program. After being enrolled in the study, the patients will receive 12 months of therapy followed by a 12-month follow-up period. The primary endpoint is the total dose of glucocorticoids (calculated in mg/kg weight), which will be administered for 12 months between baseline and the end of treatment. There are several of secondary objectives, which will be pursued during and after the trial. Disease activity and damage will be prospectively assessed by the newly developed tools for myositis disease activity (MYOACT and MITAX) and for myositis damage (MYODAM and MDI. Other secondary objectives comprise: global assessment of activity and damage by patients and by physician, muscle endurance, muscle strength by manual muscle testing, enzyme levels, glucocorticoid related side effects, functional ability measured by HAQ, quality of life by SF-36, and number of patients with treatment failures. The other aims will also include (i) search for reliable prognostic parameters in the further prognosis of patients with inflammatory myopathies and (ii) studies on the pathogenic aspects of inflammatory myopathies. The investigations of serum, lymphocytes, muscle tissue and MRI will be organized. DNA and RNA will be stored for future genetic studies. Patients with definite or probable polymyositis or dermatomyositis diagnosed according to diagnostic criteria will be enrolled. They will have disease activity that according to physician's own judgement requires high dose immunosuppressive treatment (based on clinical assessment of weakness, elevation of muscle enzymes and, if available, on magnetic resonance imaging findings). Patients should be previously untreated with the exception of glucocorticoid treatment up to 8 weeks. Patients with other than primary idiopathic polymyositis or dermatomyositis, such as drug-induced myositis, myositis in association with other connective tissue disease, inclusion body myositis, malignancy related myositis, and juvenile dermatomyositis will be excluded. All patients will start with prednisone 1 mg/kg/day and the dose will be tapered if patients meet definition of improvement, which has been proposed by IMACS group. Methotrexate will be administered orally, once weekly, with a starting dose 10 mg. This will be increased gradually to 25 mg/week if tolerated by week 5. Patients will be first assessed after 2 weeks and than monthly for a period of 48 weeks. There will be a follow-up after a further 1 year in order to find out the impact of the early treatment on the long-term disease outcome. All efficacy analyses will be performed using intention-to-treat population (ITT). In addition, the primary and secondary variables will be analysed using the per-protocol population, which will contain all patients in the ITT population, who also reached Week 48 of treatment without any major protocol violations. The safety population, which will contain any patient who received at least one dose of study drug, will be used for all safety analyses.
The primary objective of the study is to evaluate the safety and tolerability of multiple IV doses of MEDI-545 in adult patients with myositis.
The purpose of the study is to evaluate the efficacy and safety of the combination treatment of tacrolimus and corticosteroid in polymyositis/dermatomyositis patients with interstitial pneumonitis with comparison against corticosteroid-treated historical controls.
This study will define the major genetic risk and protective factors for idiopathic inflammatory myopathies (IIM), a group of immune disorders affecting connective tissues such as muscles. It will also identify new environmental risk factors for IIM and identify immune responses in myositis and related diseases. There are many forms of IIMs, and the causes of these diseases are unknown. However, scientists suspect that they result when people with some genetic factors that predispose them-that is, put them at greater risk-are exposed to certain environmental triggers. Some of those triggers include food, drugs, biologics (such as a vaccine to prevent disease), medical devices and occupational exposures. Patients, including children under 18, who had a diagnosis of myositis, a related autoimmune disease, or a rheumatic disease, as well as their blood relatives, and control subjects who were in good health have already been recruited for this study. The evaluation consisted of one outpatient visit to the patient's doctor, who will obtain a medical history and conduct a physician examination. Patients spent 20 to 30 minutes to answer written questions. There was a blood collection of about 6 tablespoons. If there was a major change in patients' medical conditions, they were asked to return for a second outpatient evaluation to determine whether any of the blood tests or antibodies, which show an immune response, had changed. Blood samples collected will be used only for laboratory research studies. The samples have been identified by a code, and all other identifying information have been removed. During the study, researchers will explore possible environmental risk factors, including studies of infectious and non-infectious agents. They will analyze the blood for genetic markers and test for certain antibodies. Laboratory results will be evaluated as they relate to the signs, symptoms, and severity of patients' illnesses. That would help researchers to better understand patterns of the diseases and the outcomes for patients. This study will not have a direct benefit for patients. However, results from the study can be made available to patients' doctors for use in appropriate care. Also, it is hoped that information gained can help other people in the future.
This randomized, double-blind, placebo-controlled trial will carry out to assess the efficacy of GB-0998 in the treatment of the steroid-resistant polymyositis and dermatomyositis based on the changes in manual muscle strength (MMT) scores as primary endpoint, and in addition, to assess the safety of GB-0998.
The diagnosis of the different forms of inflammatory myopathies (polymyositis, dermatomyositis, inclusion-body myositis...) remains difficult which may lead to unappropriate patient care. Objective 1 : to develop and evaluate the diagnostic value of a dedicated DNA-array (myoARRAY) for adult-onset muscular diseases with focus on inflammatory myopathies. Objective 2 : to evaluate the diagnostic value of T cell repertoire (TcLand) analysis to distinguish different forms of inflammatory myopathies.