Active clinical trials for "Muscle Spasticity"

IncobotulinumtoxinA (Xeomin) is a botulinum toxin type A preparation free from complexing proteins, i.e. free from proteins other than the active toxin. Injected into the muscle, incobotulinumtoxinA (Xeomin) causes local weakening. Botulinum toxin type A is widely used for treatment of various neurological conditions. This study will investigate the efficacy and safety of incobotulinumtoxinA (Xeomin) in the treatment of post-stroke spasticity of the upper limb.

In this study, we will compare BOTOX® versus Zanaflex ® for the treatment of muscle overactivity in the upper limb following stroke or brain traums. This is a critical step in the development of local intramuscular treatment for patients with muscle overactivity following an acute brain lesions, as opposed to the more classic oral treatments. This study will be a multicenter, randomized, prospective, parallel, double blind study that enrolls subjects at twelve sites (including Mt. Sinai) throughout the United States and Europe. The purpose of this study is to evaluate the safety and efficacy of BOTOX® compared to Zanaflex® in reducing upper limb muscle tone in post-stroke subjects, as well as evaluating changes in muscle tone-related disability and drug-therapy tolerance. This will be an 18 week study. Subjects are eligible if they have been medically stable with upper limb spasticity 6 months after their first stroke. Subjects will be randomized to one of three treatment groups: Treatment Group I - intramuscular BOTOX® plus oral placebo, Treatment Group II - intramuscular placebo plus oral Zanaflex®, Treatment Group III - intramuscular placebo plus oral placebo. The dose of BOTOX® will be at the discretion of the investigator with a maximum of 500 U per subject. The dose of the Zanaflex® will be 4mg/day to a maximum of 36mg/day. The study anticipates that 150 subjects will be enrolled to provide sufficient information to answer the primary objective of safety and efficacy of the study.

Hereditary spastic paraplegias constitute a heterogeneous group of diseases with the common predominant feature of spasticity of the lower limbs. The clinical picture is composed of difficulty walking, exaggerated deep reflexes, pathological reflexes such as the Babinski sign, sphincter disturbances and various degrees of weakness as well as sensory disturbances. Spasticity is the symptom that provoques greater incapacity. Although there have been recent advances in the genetic and pathogenic characterization of SPG there is scarcity of therapeutic options. The Botulinum Toxin (BTx) is a well established treatment for movement disorders such as cervical dystonia, blepharospasm, and arm spastic following stroke. Therefore, the investigators propose the execution of a randomized, double-blind, placebo-controlled, crossover study to evaluate the efficacy of the treatment with Btx over SPG patient's gait. The primary outcome measure will be gait velocity with the 10 meter walking test 8 weeks after injection. Each participant will be submitted to one injection session of Btx and one of placebo (consisting of sterile sodium chloride), each one separated by a period of 6 months. The primary and secondary outcomes will be evaluated by a blind investigator 8 weeks after each injection session.

The purpose of this study is to determine whether injections of Botulinum toxin type A into muscles of the leg(s) are effective in treating children/adolescents (age 2-17 years) with increased muscle tension/uncontrollable muscle stiffness (spasticity) due to cerebral palsy.

Patients who survive a stroke are often left with an arm that cannot be used. One reason for this is that the muscles affected by the stroke become overactive. This is known as spasticity. Such unwanted muscle overactivity, if left untreated or poorly managed, can lead to limb deformities. For example, the wrist and fingers in the arm affected by spasticity become stiff and curl into a fist and the hand cannot be used for any functional purpose. Palm hygiene can become difficult and patients find this deformity unsightly and painful. Botulinum toxin (BT) has been shown to reduce muscle overactivity and is licensed for this purpose. In current practice this treatment is often used as a last line of defence. Although BT can reduce the muscle overactivity, when injected using current protocols, it seems to have little impact on the recovery of function and/or treating the limb deformities and pain. If BT can be given in the early stages of a stroke, i.e. as soon as the muscle overactivity is observed, then we will be able to treat spasticity and may prevent the limb deformities and pain from developing. We may also be able to assist the recovery of arm movement in some of the patients who would otherwise not have regained this. In addition to benefiting the patient, the prevention of secondary complications by early treatment may reduce the costs of long term care to the NHS . We hope to discover if our plan of providing early treatment with BT is more effective than the current approach. If we demonstrate that the treatment is effective we will be able to introduce this new method almost immediately within the NHS through our collaboration with doctors and therapists who are actively treating patients with this condition.

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.

The purpose of this study is to observe the behavior of kinematic variables in children with spastic hemiparetic cerebral palsy (SHCP), immediately after treadmill gait training with ankle loading. The children underwent a single treadmill training session with ankle loading. The kinematic parameters were assessed in three phases: before training (PRE); immediately after training (POST); and 5 minutes after the end of training (FOLLOW UP). The investigators hypothesized that the treadmill gait training with additional lower limb loading would be a disturbance capable of modifying the locomotor strategy of children with SHCP, by the increase in kinematic parameters in the swing phase of gait.

Spasticity is a motor disorder that can affect the lower limbs in up to 75% patients with cerebral palsy, having a significantly effect on their mobility and quality of life. There is much controversy about what is the most appropriate treatment of spasticity The objective of the present study is to evaluate the effects of radial extracorporeal shock wave therapy (rESWT) compared to treatment with botulinum toxin to improve spasticity in patients with cerebral palsy The number needed of patients is 70 (35 per group). Leaving a period of washout between one therapy and the other

A randomized control trial investigating "Biomechanical Correction of the Spine according to Kozyavkin" (BCSK) which is a part of the treatment concept "Intensive Neurophysiological Rehabilitation System" (INRS). BCSK is used with the aims to reduce muscle tone and improve gross and fine motor function in children with Spastic Bilateral Cerebral Palsy.

This is a multicenter, double-blind, randomized, placebo-controlled study designed to compare Botulinum Toxin Type A for Injection (HengLi®) with placebo on the efficacy and safety of treatment in post-stroke subjects with focal wrist, finger and in some cases, thumb spasticity. Approximately 180 subjects will be enrolled. The core period of the subjects will receive a single treatment session of intramuscular HengLi® 200U or 240U (if thumb spasticity is present) or placebo in a randomization ratio of 2:1. Research contains two parts: core phase and extension phase. In the core phase, subjects will finish 6 visits (12 weeks ) after initial injection. During the extension phase, subjects will accept two follow-up visit (6 weeks). Outcome measures include changes from baseline at every post injection visit as measured on the Modified Ashworth Scale (MAS), Disability Assessment Scale (DAS) and Global Assessment Scale(GAS). The primary efficacy endpoint is the change from baseline at week 6 for wrist flexor muscle tone as measured on the Modified Ashworth Scale. Safety parameters will also be measured including adverse events, vital signs (pulse and blood pressure) and clinical laboratory tests (haematology, serum chemistry and urinanalysis).