Active clinical trials for "Muscle Spasticity"

This is a registry study in adults with spasticity to determine onabotulinumtoxinA use in clinical practice. Treatment will be administered in accordance with physician standard practice. All treatment decisions lie with the physician.

After spinal cord injury, patients develop a spastic syndrome that is characterized by hyperactive reflexes, increased muscle tone, clonus and involuntary muscle spasms. The neuronal mechanisms behind the development of spasticity remain largely unknown, though animal experiments have shown that changes occur both at the level of the motoneuron and sensory neurons. This project aims to examine the changes that occur in the modulation of sensory afferent transmission after spinal cord injury, and how these changes can contribute to the triggering and initiation of muscle spasms after chronic spinal cord injury in humans. It is known that after spinal cord injury, the majority of descending sources of monoamines, such as serotonin (5HT), are abolished. Animal experiments have shown that 5HT receptors on sensory neurons in the spinal cord are responsible for inhibiting sensory transmission. As a result, after spinal cord injury these receptors are no longer activated below an injury, resulting in the production of large, long excitatory responses in the motoneuron when sensory are activated. This large sensory activation of the motoneuron can, in turn, activate a long response in the motoneuron to produce an involuntary muscle spasm. The aim of our study is to determine whether, similar to animal experiments, the 5HT1 receptors are responsible for sensory inhibition in spinal cord injured subjects, and whether activating these receptors (through the 5HT1 agonist Zolmitriptan) will restore the normal inhibition of sensory transmission that is lost after injury, thereby resulting in a decrease in the initiation of involuntary muscle spasms.

The MOBILITY Project is a prospective, non-randomized, observational, multi-centre evaluation of Health Utility via the SF-12® Health Survey Scores and the SF-6D in patients receiving BOTOX® for therapeutic use.

This survey aims to investigate the prevalence of spasticity among adults who live in community settings in Davidson County, Tennessee. The treatment of spasticity in those who live in community homes could significantly increase a person's quality of life by allowing them to participate more independently in activities of daily living, or by making assistance easier for caregivers.

This study will use a magnetic resonance imaging technique called nuclear magnetic spectroscopy (H-MRS) to define the pathology and progression of primary lateral sclerosis, hereditary spastic paraplegia and amyotrophic lateral sclerosis and assess the usefulness of this technique in evaluating patients' response to therapy. H-MRS will be used to examine metabolic changes in the parts of the brain and spinal cord (motor cortex and corticospinal tract) involved in movement. Normal volunteers and patients with primary lateral sclerosis, hereditary spastic paraplegia or amyotrophic lateral sclerosis between 21 and 65 years of age may be eligible for this study. Participants will have up to five H-MRS studies, including baseline and follow-up tests. For this procedure, the subject lies on a stretcher that is moved into a strong magnetic field. Earplugs are worn to muffle the loud knocking noise that occurs during switching of radio frequencies. The subject will be asked to lie still during each scan, for 1 to 8 minutes at a time. Total scanning time varies from 20 minutes to 2 hours, with most examinations lasting between 45 and 90 minutes. Communication with the medical staff is possible at all times during the scan.

Determination of which muscle is more spastic before injection of the botulinum toxin, and the application of the targeted treatment to that muscle results in more improvement in spasticity. It is known that the muscles that flex elbow in healthy individuals change according to forearm position. While the biceps brachii flexes the forearm in supination, the brachioradialis flexes the forearm in the neutral position. The brachialis muscle acts as a primary flexor muscle when the forearm is in pronation. In this study, hypothesis is that the severity of spasticity differs depending on the forearm position.

Spasticity is defined as a state of increased muscle tone, which evokes an increased resistance to a passive and fast stretching of the muscle. Indeed, the degree of spasticity depends, among other things, on the stretching velocity performed to the muscle. However, most of the tools used in the clinical setting to assess spasticity do not take into account the relationship between increased muscle tone and speed of stretching. Instead of that, muscle tone is usually assessed in a relaxed position of the muscle. Likewise, to date, despite the functional disabilities related to the presence of chronic pain after a stroke, no previous study has correlated muscle tone and pressure pain sensitivity within this population

Background: - Primary lateral sclerosis (PLS) is a rare disease. It leads to weakness in the muscle of the arms, legs, and face. People with PLS develop muscle stiffness called spasticity. Researchers want to find a better way to measure this. They want to see if ultrasound, which uses sound waves to look at parts of the body, can measure spasticity and stiffness in muscles. Objective: - To see if ultrasound can detect and measure muscle spasticity in people with PLS. Eligibility: People ages 18 75 who have a diagnosis of PLS and are enrolled in protocol 01-N-0145. Healthy volunteers ages 18 75. Design: Participants with PLS will have 1 study visit. Healthy participants will have upto 5 visits. Each visit will be about 2 hours. Participants will have tests of muscle strength. They will be examined. They will push their arms and legs against researchers in different positions. Participants will have tests of muscle stiffness. Their arms and legs will be moved while they relax. Participants will have a muscle ultrasound test. They will lie on a table. Gel will be placed on the skin over the muscles of the arms and legs. A probe, like a microphone, will be moved over the skin. Researchers will look at several muscles. Participants should try to stay still during the ultrasound. It may be done several times and may be done by different examiners.

This is a retrospective study of patients with spasticity in the Spanish population.

This study will use three different magnetic resonance imaging (MRI) techniques to study HTLV-1 associated myelopathy/tropical spastic paraparesis (HAM/STP)-a disease of slowly progressive weakness in the legs. It is not known how the HTLV-1 virus causes this disease, but it is thought that as the body's immune system tries to destroy the virus, parts of the nervous system-primarily the spinal cord-are damaged. Patients 18 years of age and older with HAM/TSP and healthy normal volunteers may be eligible for this study. Participants will undergo diffusion tensor MRI, MR-spectroscopy, and magnetization transfer imaging to look at different compositional, architectural, and microscopic properties of the brain. All of these techniques are similar to conventional MRI, and like the conventional method they use a strong magnetic field and radio waves to measure structural and chemical changes in brain tissue. Each of the three scans will be done on separate days, each lasting about 1 hour. For the procedures, the patient or volunteer lies on a stretcher in a narrow metal cylinder (the scanner) and is asked to remain still for 15 to 30 minutes at a time. A special lightweight coil may be placed on the head to enhance the brain images. The subject can communicate with the person doing the scan at all times.