Active clinical trials for "Muscle Spasticity"

Stroke is one of the common diseases in the elderly. It is the third ranking cause of death and affects health care system in our country. One of the most important consequences of stroke is spasticity. Some stroke patients suffered from severe spasticity or hypersensitive reflex to stimuli. It can cause contracture, limit self care function, transfer or ambulation. Most of stroke patients have to depend on their relatives or families.

Involuntary muscle activity, often called spasticity, is a common problem following spinal cord injury (SCI) that can make it hard to move. Many things can cause spasticity including: muscle stretch, movement, or it can happen for no reason, and it is often described as an uncontrolled muscle spasm or feeling of stiffness. Drugs are typically used to treat spasticity, but they often have side effects, like muscle weakness, which can add to movement problems. Rehabilitation therapies offer alternatives to drugs for treating involuntary muscle activity, and rehabilitation can also improve daily function and quality of life. These benefits may be greater when several rehabilitation therapies are used together. Walking ability can be improved with a type of therapy called "locomotor training". This type of therapy may also have the benefit of decreasing spasticity. When locomotor training (LT) is combined with electrical stimulation, the benefits of training may be increased. In this study, investigators will use a kind of stimulation called transcutaneous spinal cord stimulation ("TSS") to stimulate participants' spinal cord nerves during locomotor training.

The purpose of this study is to investigate the effects of mirror therapy combined with upper extremity strengthening training on upper extremity function in children with unilateral spastic Cerebral Palsy (CP): a single blind randomized controlled trial. In the literature, there was no randomized controlled trial. According to literature, there are few studies that investigate the effects of mirror therapy in children with CP. But there is no randomized controlled trial, explore the effects of mirror therapy combined with upper extremity strength training on upper extremity functions in unilateral spastic CP. Hypothesis of this study is that mirror therapy combined with strength training improves upper extremity function and muscle strength in unilateral spastic CP.

In an RCT, the effect of the MOTOmed movement trainer (Reck, Germany) on spasticity and physical function in pwMS with EDSS score between 4,5 and 7 is investigated. All subjects exercise at home and are supervised and supported by an exercise therapist via an online platform. We compare the effect of a 12 week passive, motor-driven movement therapy (VG1) to an intermittent active and passive training (VG2). After 12 weeks, VG1 continues with an active training including strengthening exercises for another 12 weeks. VG2 does not receive any intervention in the second study phase.

The purpose of this study is to determine whether radial extracorporeal shock wave therapy in combination with traditional physical therapy is safe and effective for the management of spastic plantar flexor muscles in patients with cerebral palsy younger than averaged three years of age.

This is a randomized controlled trial comparing 3 months of intensive leg exercise to standard physiotherapy care for the improvement of motor function in the legs in young children with spastic diplegia.

Spastic equinovarus foot (SEF) is a major cause of disability in stroke patients. Treatments may include physical therapy, orthosis, botulinum toxin (BTX) injections and selective neurotomy. Several RCT placebo-controlled studies have demonstrated improvement in spasticity, in pain and in active ankle dorsiflexion after BTX injections. Unfortunately, BTX is an expensive treatment and its effects last about three months. Selective neurotomy consists in a partial section of the motor nerve innervating spastic muscles responsible for the SEF, leading to a permanent treatment of the SEF. Until now, neurotomy has only been assessed by observational case-report studies and has never been submitted to a RCT. The aim of our study is to evaluate the benefits of selective tibial neurotomy in case of SEF according to the 3 domains of the ICF, by comparing it with BTX injections, among a prospective, randomized, controlled single blind study: it would allow to promote a permanent and cost-effective treatment in case of SEF.

Objective: To determine the effect of ankle joint mobilization on the alpha motoneuron reflex excitability of the soleus muscle in people with spasticity. Subjects and Methods: A controlled clinical trial with crossover design and simple masking was conducted in 24 randomized subjects to initiate the control or experimental group. Traction and rhythmic oscillation were applied for five minutes to the ankle joint. Alpha motoneuron reflex excitability was assessed by measuring H wave amplitude (Hoffmann reflex - H reflex), stimulating the tibial nerve at the level of the popliteal fossa and recording in the soleus muscle. In each subject 12 measurements were taken: basal rate, during and after mobilization. Changes in alpha motoneuron reflex excitability were calculated in relation to basal measurement. For each measurement a hypothesis test was performed (Student t test). Results: In groups of patients with brain injury (BI) and incomplete spinal cord injury (ISCI), a significant difference was found between measurements of both studies, concerning variation in alpha motoneuron reflex excitability during the application of joint mobilization techniques, with a decrease in the experimental group and an increase in the control group. In contrast, no significant differences were found after mobilization therapy. Patients with complete spinal cord injury (CSCI) showed no significant differences in any measurements. Conclusion: We demonstrate the effectiveness of passive movement in the decrease of muscle tone during the mobilization maneuver in patients with BI or ISCI, but no residual effect after completion of the trial. This research project showed no evidence regarding spasticity reduction in complete spinal cord injuries. This suggests that therapeutic interventions to decrease muscle tone, based on the passive exercise and stimulation of proprioceptors should be reconsidered.

The purpose of this study is to determine the effects, both good and bad, of IPX056 on subjects and their spasticity. This study will also determine the relationship between the amount of IPX056 in blood and the effects on spasticity. Lastly, this study will determine how long IPX056 affects spasticity.

The aim of this clinical study is to investigate the efficacy and safety of Dysport® in patients with early onset of upper limb spasticity within 2-12 weeks after stroke.