View clinical trials related to Inclusion Body Myositis.
Filter by:Inclusion-Body Myositis (IBM) results in weakness and the deterioration of distal arm muscles, the symptoms of which are currently assessed through expert examination at clinical visits. Such in-clinic assessments are time-consuming, subjective, of limited sensitivity, and only provide a snapshot of a patient's disease. In this project, we will conduct clinical validation of monitoring digital biomarkers of upper limb function during activities of daily living using a wearable sensor platform that enables frequent, at-home monitoring of upper limb function health in IBM and could be incorporated into IBM trials.
The combination of short quantitatively assessing muscular function and balance in combination with short clinical scores, can be a new valid approach to evaluate the patient risk of fall and help to create a quick checkup test to prescribe an appropriate assistive device. The primary goal of this project is to provide a short battery of clinical assessments used to determine risk of falling for patients with neuromuscular diseases (NMD) based on correlation between clinical assessments between two groups of NMD patients and scales used to assess risk of falling for patients.
The primary aim of this nationwide, explorative, cross-sectional study in Germany is to characterize the prevalence, severity and quality of musculoskeletal pain in adult patients with late-onset Pompe disease (LOPD). The secondary objectives are to evaluate whether muscle pain is associated with muscle function, to assess whether muscle pain is associated with alterations of muscle tissue, and whether vitamin D metabolism and polymorphisms of ACE and ACTN3 genes may contribute to an increased level of perceived musculoskeletal pain. In a second step, exome sequencing of genes associated with musculoskeletal pain will be analyzed. Results of LOPD patients will be compared to patients with neuromuscular disorders with a similar distribution of muscle weakness and/or musculoskeletal pain.
Inclusion Body Myositis is a slowly but disabling myopathy, the most frequent in patients over 50 years old. No treatments (in particular immunosuppressive) are known to be efficient. Autologous uncultured adipose-derived stromal vascular fraction (ADSVF) is recognized as an easily accessible (by a standard liposuction to obtain adipose tissue, from which ADSVF are isolated by centrifugation), safe and well tolerated source of cells with angiogenic, anti-inflammatory, immunomodulatory and regenerative properties. The purpose of our ADSVF in IBM phase I trial is to evaluate, for the first time in human diseased muscle, first the tolerance of autologous ADSVF cells locally injected in affected forearm muscles and second their capability to repair those muscles. With always the goals of tolerance first and second muscle repair, we will recruit in parallel two groups of IBM patients: the first treated by sirolimus since at least 6 months (but still disabled) and the second currently (for at least 3 months) without specific treatment for inclusion myositis.
The hypothesis is that Sirolimus, (Rapamycin (R)) which is currently used in organ transplantation and works by blocking the activity of T effector cells but preserving T regulatory cells, as well as by inducing autophagy (protein degradation), will be effective in IBM to slow or stabilize disease progression, helping to maintain patient function and independence. This phase III trial will confirm pilot data showing statistically significant clinical outcomes.
This study will evaluate subjects with adult- and childhood-onset myositis to learn more about their cause and the immune system changes and medical problems associated with them. Myositis is an inflammatory muscle disease that can damage muscles and other organs, resulting in significant disability. Children or adults with polymyositis or dermatomyositis or a related condition may be evaluated under this study. Healthy children or adults will also be enrolled as "controls," for comparison of test results. All patients will undergo a complete history (including completing some questionnaires) and physical examination, review of medical records, and blood and urine tests. Patients may then choose to participate in an additional 1- to 5-day evaluation, which will include some or all of the following diagnostic, treatment or research procedures: 1. Standardized muscle strength testing, range of motion of joints and walking (gait) analysis by a physiotherapist; completion of a questionnaire regarding ability to perform daily tasks 2. Skin assessment, possibly including photographs of lesions and a skin biopsy (removal of a small skin sample under local anesthetic) 3. Magnetic resonance imaging (scans that use magnetic fields to visualize tissues) of leg muscles 4. Swallowing studies, including a physical examination and questionnaire on swallowing ability, studies of tongue strength, and ultrasound imaging during swallowing, and possibly, a modified barium swallow 5. Voice and speech assessment, possibly including computerized voice analysis and laryngoscopy-analysis of the larynx (voice box) using a small rigid scope with a camera placed in the mouth to view and record vocal cord function 6. Pulmonary function tests (measurement of air moved into and out of the lungs, using a breathing machine) to evaluate lung function and, possibly, chest X-ray 7. Electrocardiogram (measurement of the electrical activity of the heart) and, possibly, echocardiogram (ultrasound imaging of the heart) 8. Endocrine evaluation 9. Eye examination, in patients with vision loss or other eye symptoms 10. Nutrition assessment to evaluate muscle mass and muscle wasting, including tape measurements or bioelectric impedance testing, a painless procedure in which wires are attached to the extremities with a sticky paste. 11. Muscle ultrasound. 12. Electromyography (record of the electrical activity of muscles) 13. Muscle or skin biopsy (removal of a small piece of muscle tissue for microscopic examination) All patients may have only a one-time evaluation or may return for one follow-up evaluations (either the 1-day or 3- to 5-day evaluation) over a 1-year period. Healthy children will undergo a medical history and brief physical examination; blood and urine tests; speech and swallowing studies including questionnaires and physical examination, tongue strength, and ultrasound study; and bioelectric impedance testing. Children 8 to 18 years old may also have exercise testing.