21 Clinical Trials for Various Conditions
The purpose of the study is to learn about reducing the symptoms and severity of nighttime lower body muscle cramps in patients with and without cirrhosis. Eligible participants will have an initial 7-day practice phase, followed by 28 days of one of two behavioral interventions.
The primary objective of the study is to demonstrate the safety and potential efficacy of TJ-68 for improving muscle cramps in participants with ALS based on a two-site, randomized, placebo-controlled double-blind multi-period crossover (N-of-1) study design.
The COMMIT Study will assess the safety and effectiveness of FLX-787 in men and women with Charcot-Marie-Tooth disease (CMT) experiencing muscle cramps. Participants will be asked to take two study products during the course of the study. One of these study products will be a placebo. Approximately 120 participants in 20 study centers across the United States are expected to take part. Participants will be in the study for approximately 3 months and visit the study clinic 3 times.
The COMMEND Study will assess the safety and effectiveness of FLX-787 in men and women with Motor Neuron Disease \[including Amyotrophic Lateral Sclerosis (ALS), Primary Lateral Sclerosis (PLS) or Progressive Muscular Atrophy (PMA)\] experiencing muscle cramps. Participants will be asked to take two study products during the course of the study. One of these study products will be a placebo. Approximately 120 participants in approximately 30 study centers across the United States are expected to take part. Participants will be in the study for approximately 3 months and visit the study clinic 3 times.
The investigator's aim is to compare the efficacy of Ropinirole (Requip) to vitamin E in the treatment of muscle cramps in cirrhotic patients.
Charcot Marie Tooth Disease is a family of inherited peripheral neuropathies, with over 70 causative genes identified to date.1-4 Muscle cramps are frequent in CMT, affecting up to 85% of patients with some subtypes of CMT. These cramps impact quality of life and have been identified as an important therapeutic target for clinical trials in CMT.1-4 There is no FDA approved treatment for muscle cramps.5 Mexiletine is a sodium channel blocker approved for treatment of arrhythmias. As a sodium channel blocker, mexiletine offers the promise of effective therapy for muscle cramps.
The purpose of this study is to determine if mexiletine is effective for the treatment of muscle cramps in Amyotrophic Lateral Sclerosis (ALS).
This is a pilot study to see if hydroxychloroquine (HCQ) if safe and effective to use with patients having cramps due to their cirrhotic liver disease.
Over 40 million Americans take statins to reduce their risk of atherosclerotic cardiovascular disease (ASCVD). Unfortunately, 10 to 20% stop taking them due to statin-associated muscle symptoms (e.g. pain, aches, weakness, cramps, or stiffness) (1, 2). The pathophysiology of these statin-associated muscle symptoms (SAMS) has remained elusive. Consequently, no objective diagnostic method exists, causing confusion for patient and providers since muscle symptoms can often be multifactorial.
Muscle cramps occur frequently among pregnant women, and few therapeutic options exist. This is a study of oral L-carnitine, a dietary supplement, for the treatment of muscle cramps in pregnancy. Our hypothesis is that carnitine will alleviate or eliminate muscle cramps experienced by pregnant women.
This clinical trial is evaluating the feasibility of using a non-pharmaceutical treatment to improve the symptoms and severity of muscle cramps in patients with cirrhosis. Eligible participants will be randomized to the treatment arm or control group. The treatment phase of the study will last 28 days. Information about participants will be collected including surveys and assessments throughout the study. Please note that only the participants randomized to experimental intervention group (Household Remedy) will be told what the treatment is during the study period. At the conclusion of the study (time of the final follow-up assessments), all participants will be debriefed on the use of concealment in this study as outlined in the protocol regarding the intervention.
Roughly 5-10% of statin-treated patients report muscle pain, aches, weakness, cramps, stiffness, or "heaviness" - typically occurring symmetrically in the legs. For healthcare providers, the major diagnostic challenge is to unambiguously link these symptoms to statin use, especially since some patients can have normal serum creatine kinase (CK) levels despite demonstrable weakness and muscle biopsy proven statin-induced myopathy . No well accepted, standardized, or Food and Drug Administration (FDA)-endorsed diagnostic method exists for statin-induced muscle injury. This lack of an objective diagnostic methodology blocks vertical advancement of the field. The successful completion of this project will develop in vivo techniques that will provide insight into how statins affect muscle metabolism and help establish a methodology to objectively diagnose muscle injury due to statins. The development of an MRS technique will allow for in-vivo analyses and the data accumulated here will serve as preliminary data for futher extramural funding of studies with much larger sample sizes. Ultimately, this focus of research will lead to improved diagnosis and treatment of patients with statin-related muscle complaints, which is central to obtaining the cardiovascular risk reduction from lipid-lowering drugs.
This is a double-blind, randomized, placebo-controlled, parallel group study of the efficacy and safety of tolperisone (a non-opioid) or placebo administered as multiple doses three times a day (TID) in approximately 400 male and female subjects experiencing back pain due to or associated with muscle spasm.
Statins are a group of medications that are used to lower cholesterol levels. Although serious side effects are rare, some people taking statins experience muscle pain or weakness. This study will evaluate the number of people who experience mild muscle complaints and will determine the effect of statins on skeletal muscle strength, endurance, and aerobic exercise performance.
The objectives of this protocol are to: 1) screen patients with various neuromuscular disorders and facilitate their entry into appropriate research protocols; 2) help resolve puzzling diagnostic neuromuscular problems and train fellows in the evaluation and treatment of Neuromuscular Diseases; and 3) provide follow up to patients who finished their participation in a previous study but they are not currently entered in another research protocol. No investigational treatments will be performed on this protocol but the tissues collected can be used for future research studies.
The purpose of this study is to evaluate the potential of ultrasound perfusion imaging technique for assessing the progression of peripheral arterial disease (PAD) and monitoring its response to therapy by measuring changes in microvessel alterations and perfusion variations.
This study will evaluate whether a dietary supplement, coenzyme Q10 (CoQ10), will improve muscle symptoms, such as muscle aches, pains, cramps, and/or weakness, which are experienced by some individuals who use statin medications.
The purpose of this study is to determine of creatine will prevent or treat the muscle toxicity side effect of statin drug therapy, whose symptoms are aching, cramping, and weakness. This is tested in patients who have had this side effect from 3 different statin drugs.
This study will examine and compare brain activity in people with focal hand dystonia (FHD) and healthy volunteers to obtain further knowledge about the underlying cause of FHD. Patients with dystonia have muscle spasms that cause abnormal postures while trying to perform a movement; FHD affects the hands and fine finger movements. During fine finger movement, the brain controls muscles in a process called surround inhibition. This process may be impaired in people with hand dystonia, leading to uncontrolled overactivity in muscles and impairing motor function. Healthy volunteers and patients with FHD over 18 years of age may be eligible for this study. Candidates are screened with a physical and neurological examination. In a series of three experiments conducted during a single clinic visit, participants undergo transcranial magnetic stimulation (TMS) while performing a finger movement. A wire coil is placed on the subject's scalp. A brief electrical current is passed through the coil, creating a magnetic pulse that travels through the scalp and skull and causes small electrical currents in the outer part of the brain. The stimulation may cause muscle, hand or arm twitching, or may affect movement or reflexes. During the stimulation, the subject is asked to contract one finger. In addition to TMS, subjects have surface electromyography. For this test, they sit in a chair with their hands placed on a pillow on their lap. The electrical activity of three muscles in the right hand is recorded by electrodes (small metal disks) taped to the skin over the muscles.
Levetiracetam (Keppra) is used to treat partial onset seizures. Its biological effects suggest it might also be useful in treating 3 aspects of human motor neuron diseases (MNDs) for which no effective therapy exists: cramps, spasticity, and disease progression.
Dystonia refers to a condition characterized by involuntary muscle contractions that may cause pain, abnormal posture, or abnormal movements. The cause of dystonia is unknown, but some researchers believe it is a result of overactivity in the areas of the brain responsible for movement (basal ganglia). Lidocaine is a drug used for the treatment of irregular heartbeats. It is given by injection. Recent studies have shown that lidocaine is also effective for the treatment dystonia. Mexiletine is a drug similar to lidocaine used for irregular heartbeats that can be taken by mouth. Researchers would like to test the effectiveness of Mexiletine for the treatment of dystonia. Patients participating in the study will be divided into two groups; Group 1 will take Mexiletine for six weeks then stop. They will remain drug free for one week then begin taking a placebo "inactive sugar pill" for an additional six weeks. Group 2 will take a placebo "inactive sugar pill" for six weeks then stop. They will remain drug free for one week then begin taking a Mexiletine for an additional six weeks. Throughout the study researchers will test the effectiveness of the treatment by evaluating patients using clinical rating scales and neurophysiological studies. In addition, researchers will test patient's reflexes in an attempt to find out where mexiletine works in the nervous system.