View clinical trials related to Muscle Spasticity.
Filter by:Within the first year after stroke, approximately 38% of stroke survivors experience an increased resistance to movement, also called spasticity. One type of treatment that is approved for stroke survivors in Canada that could reduce spasticity is the injection of Botulinum toxin (BTX) into the affected muscle. While BTX reduces spasticity, there is limited evidence to show that BTX administration leads to functional improvements. This may occur because the outcomes aren't sensitive enough to detect change, some people may have better responses to BTX, or because BTX hasn't been paired with the right exercises to improve function. The aims of this research are: i) to determine if there is a way of improving the markers that measure change in response to treatment; and ii) to identify the ideal type of exercise that should be paired with BTX to allow the drug to have it greatest effect. There are two primary research questions: a) What are the measures that will indicate whether a person with post-stroke spasticity will benefit from BTX therapy? It is hypothesized that EMG latency and amplitude, for those who best respond to BTX, will differ from those who demonstrate a weaker response to BTX; b)What is the ideal training approach for improving muscle function in stroke survivors receiving BTX injections? It is hypothesized that a training protocol that focuses on optimizing specific muscle activation patterns will demonstrate better outcomes than a training program designed to improve function.
This is a multicenter, randomized (1:1:1), double-blind, active and placebo controlled, parallel group study to evaluate safety, tolerability and efficacy of oral arbaclofen in MS patients with spasticity. Eligible subjects will be removed from anti-spasticity medications for at least one week and then begin study drug treatment with daily doses increasing up to the target dose which will then be maintained for at least 12 weeks. A down-titration will then occur over two weeks.
Normally, nerve fibers carry electrical impulses through the spinal cord, providing communication between the brain and the arms and legs. In people with spinal cord injury, some fibers may be destroyed at the site of injury, while others remain connected but do not work correctly to carry electrical impulses. As a result, subjects with an incomplete spinal cord injury may have spasticity which is muscle spasms or muscle stiffness that makes movement difficult. Fampridine-SR is an experimental drug that increases the ability of the nerve to conduct electrical impulses. This study will examine the effects of Fampridine-SR on moderate to severe lower-limb spasticity, as well as the effects on bodily functions such as bladder control, bowel function and sexual function. The study will also examine the possible risks of taking Fampridine-SR.
Urological physical therapy is described to improve urinary symptoms in patients with myelopathy or neurological dysfunction and to increase the quality of life. Although it was never tested on HTLV-1 associated overactive bladder syndrome, an disabling disease that is common seen in HAM/TSP patients but can also appear as an isolated form. Our hypothesis is that urological physical therapy can improve urinary symptoms like incontinence, urgency and nocturia in HTLV-1 infected population with those complains.
Spasticity is a condition that results from damage to the central nervous system and causes painful muscle contractures that drastically affect level of independence, activities of daily living, and quality of life. Although there are well-known and accepted treatments for spasticity, spasticity is often left undertreated; the specific reasons for this observation are unknown. Because there is no blood test or scan that indicates the presence of spasticity, diagnosis is based entirely on physician impression. Therefore, the investigators hypothesize that one reason that spasticity is undertreated is due to the lack of a standardized diagnostic procedure. This study attempts to test the reliability of a diagnostic flowchart that seeks to increase the accuracy of physician diagnosis of spasticity.
This study will evaluate the long-term safety of BOTOX® (botulinum toxin Type A) for the treatment of pediatric lower limb spasticity.
This study will evaluate the safety and efficacy of BOTOX® (botulinum toxin Type A) in pediatric patients with lower limb spasticity.
This study will evaluate the long-term safety of BOTOX® (botulinum toxin Type A) for the treatment of pediatric upper limb spasticity.
This study will evaluate the safety and efficacy of BOTOX® (botulinum toxin Type A) in pediatric patients with upper limb spasticity.
The purpose of this study is to determine whether injections with increasing doses (up to 800 units) of Botulinum toxin type A into muscles of the leg and/or arm are safe and effective in treating patients with spasticity on one body side due to cerebral causes.