View clinical trials related to Fibromyalgia.
Filter by:This study aimed to compare the effectiveness of a 6-week core stabilization exercise (CSE) program with and without kinesio taping on pain, fatigue, health status, quality of life, sleep quality and depression in woman with fibromyalgia. Participants were allocated into two groups as CSE and CSE plus kinesio taping group. Pain, fatigue, health status, quality of life, sleep quality and depression were assessed at the baseline and after 6-weeks treatment.
This will be a multistate, multicenter clinical study to determine the efficacy and safety of medical cannabis for a wide variety of chronic medical conditions.
The study has three aims: 1. To investigate the influence of cardiovascular autonomic function on pain sensitivity at rest in patients with fibromyalgia and age- and sex-matched controls 2. To investigate the influence of cardiovascular autonomic function at baseline and during exercise on the pain response following submaximal isometric exercise 3. To study the relation between the pain response following physical and cognitive tasks (exercise and mental math, respectively).
Drugs used for managing Fibromyalgia pain have not proven to be effective and pain continues to cost Canadians $60 billion a year without truly helping those who suffer. The study proposes to investigate the factors related to a person that can enhance or reduce the effectiveness of pain treatments in people suffering with Fibromyalgia pain. Treatment response to painkillers in a person may be related to their brain, social, and psychological makeup. The investigators aim to study these factors to identify and develop feasible and robust indicators based on a person's biological makeup (also called biomarkers). These biomarkers will allow doctors and researchers to predict more accurately which treatment and prevention strategies for a particular disease will work in which groups of people. These measures will offer new opportunities for improving treatment such as by tailoring treatment to meet the specific needs of each patient based on his/her biological and psychological makeup. Towards the specific aim, data will first be collected in several experimental domains for studying treatment expectations (cognitive, psychosocial, brain-related). These 'experimental' data will be compared between Fibromyalgia (FM) and healthy participants to yield new understanding of the factors that govern treatment response. At the end of experimental data collection, the investigators will collect data in the 'clinical' domain. Hence, at the end of the experimental sessions, a subset of FM participants will receive a mock drug (placebo disguised as an approved pain treatment) and another subset will provide pain ratings only and hence serve as a waiting list control for the placebo trial. Data will be studied in steps to understand factors that mediate treatment outcomes and finally the investigators will use advanced computational tools used for big data analysis and aim to identify factors that can be used as biomarkers and precision medicine tools.
Fibromyalgia (FM) is a chronic debilitating musculoskeletal pain syndrome. "Central sensitization" is an important mechanism of the disease. Recent studies have shown that "microbiome-gut-brain axis" imbalance may be one of the important mechanisms of "central sensitization". The purpose of this study was to investigate the therapeutic mechanism of Ba-Duan-Jin therapy in the treatment of fibromyalgia by improving intestinal microecology. The mechanism was evaluated by comparing the results of brain functional MRI (fMRI) and microbacterial analysis of the patients' stool pre and post treatment .
Fibromyalgia(FM) is a widespread musculoskeletal pain syndrome characterized by fatigue, sleep disorders, cognitive impairment, depressive symptoms and neuro-vegetative symptoms. It is a multivariable and complex neurobiological process. FM worldwide prevalence according to American College of Rheumatology (ACR) 2010 diagnostic criteria is estimated under 5,4%. In USA the burden caused by FM is estimated at 29 billions every year, due to assistance, health care costs and retirement to loss of productivity. It is known that conventional pharmacological approaches present poor therapeutic response in more than 50% of these patients. It is conceivable that this limited results, at least in part, due to the lack of a complete elucidation of its pathophysiology. Our hypothesis is that tDCS has a superior effect on clinical outcomes, functional capacity, cortical excitability, and psycho-affective functions compared to simulated treatment. In order to respond to the objectives of this study, a randomized, parallel-blinded clinical trial will be conducted. FM patients will be randomized to receive tDCS with anodic pole on the primary motor cortex and the cathode pole on the contralateral prefrontal cortex.
Considering the central component of fibromyalgia (FM), the focus of research on current therapeutic approaches has been techniques that may modify the dysfunctional neuroplasticity process, such as transcranial direct current (tDCS) stimulation in order to counteract the dysfunction responsible for triggering and maintain the symptoms of FM. Although this technique is gaining space in research and in the clinical scenario, many questions remain to be answered, such as time of treatment, place to be stimulated and neurophysiological clarification of the mechanisms involved. Based on the presented scenario, the present project was organized, being a double-blinded parallel randomized controlled trial with 20 female patients with FM diagnosed according to the criteria of the American Society of Rheumatology (2010 - reviewed in 2016) between 19 and 65 years of age, randomized to receive active or simulated anodic pole over the left dorsolateral prefrontal cortex (DLPFC) (10 patients in each group). Twenty 20-minute sessions, with a current intensity of 2 milliamperes, will be performed. In order to respond to the objectives of this study, the IFC will be evaluated before and after the intervention, through rs-fMRI using seed-based correlation analysis (SCA). The investigators have a secondary objective to correlate structural connectivity through the technique of diffusion tensors imaging (DTI) with measures of pain, functional capacity, depressive symptoms and catastrophism to pain. The hypothesis is that in FM there is a syndrome of dysfunction in basal intrinsic functional connectivity (IFC) and that the tDCS has a neuromodulatory effect capable of reducing connectivity between brain areas related to chronic pain and other neuropsychiatric components of FM, such as the ventrolateral thalamus, cortex motor, prefrontal cortex, insular cortex, hippocampus, periaqueductal gray matter, among others. The investigators believe that a higher cortico-thalamic IFC and between regions with high density of opioid receptors have a positive predictive response in the treatment of tDCS.
Patient Power is a patient research network and database (registry) to collect prospective information about demographics, self-reported diagnoses and medications, and willingness to participate in research from participants with rheumatoid arthritis (RA), spondyloarthritis (SpA), other musculoskeletal conditions, chronic neurological conditions like migraine, chronic pulmonary conditions like Chronic Obstructive Pulmonary Disease (COPD), asthma, autoimmune dermatological conditions such as psoriasis, and other chronic inflammatory or immune-mediated conditions. In addition, since patients with chronic conditions often have other co-morbidities like cardiovascular health and obesity-related metabolic disorders, these conditions will also be included. Participants will provide information from their smartphones or personal computers. The information will be used by researchers and clinicians to help patients and their providers make better, more informed decisions about treatment of chronic conditions.
This study will use brain Positron Emission Tomography/ Magnetic Resonance Imaging (PET/MRI) and an investigational radioactive drug called [Zr-89]oxine to track the location of white blood cells (also called leukocytes) in the body. PET/MRI will be used to visualize labeled white blood cells and determine if they enter the central nervous system in conditions associated with brain inflammation (also called neuroinflammation). By better understanding the role of neuroinflammation in fibromyalgia, chronic fatigue syndrome, and multiple sclerosis, the investigator hopes to be able to better diagnose and treat patients in the future.
The aim of the investigator's study is to determine the validity and reliability of the Turkish version of the Combined Index of Severity (ICAF) in Turkish patients with Fibromyalgia Syndrome (FMS).