View clinical trials related to Muscle Spasticity.
Filter by:PEPS is a 18 months prospective bicentric study on 30 patients with spastic foot. The main objective is to evaluate the mean daily gait perimeter modifications mesured by connected watch, 6 months after spastic equinus foot surgery versus before this surgery. Investigator will lend a connected watch during the first consultation, and the patient will use it during 10 days in order to collect his mean daily gait perimeter. A lot of other tests will be realised in order to caracterize the clinical picture of each patient. After patients will be operated and all caracteristics of the surgery will be collected. Finally, at 6 months appointment, investigator will do the same analysis than first appointment in order to comparate the data for functional prognosis.
Spastic plantar and palmar flexion deformities are very common in children with cerebral palsy (CP). These deformities usually involve spasticity of the plantar or palmar muscle complexes, weakness of the antagonist dorsiflexor muscles of the ankle or wrist, and also involve soft tissue/muscle contractures and require a multimodal treatment approach. Physical therapy (PT), occupational therapy (OT), serial casting (SC), and botulinum toxin A (BoNT-A) injections had shown positive results in both of these deformities. Recent systematic reviews and meta-analyses showed that extracorporeal shock wave therapy (ESWT) is effective in reducing spasticity, pain intensity, and increasing range of motion and motor function when combined with PT or BoNT-A injections in neurological conditions like stroke, CP, multiple sclerosis. ESWT can be a complimentary therapy to obtain an earlier efficacy, better efficacy, a sustained effect for a longer period, and less adverse events. The objective of this study was to show the effects of ESWT when combined with intermittent SC, BoNT-A injections and PT or OT on spasticity, passive range of motion (pROM) of children with CP having spastic equinus foot deformity or wrist palmar flexion deformity.
The goal of this clinical trial is to evaluate the safety and efficacy of nabiximols, a cannabinoid spray, for the treatment of moderate to severe spasticity in adult patients with AQP4-IgG positive and antibody-negative NMOSD. The main question it aims to answer is whether treatment with nabiximols improves patient-reported spasticity ratings compared to treatment with a placebo. This trial will also answer whether nabiximols impact pain, spasm frequency, mood, walking ability, and sleep. Participants will be mailed the treatments and placebo treatments, and will be asked to complete study visits and questionnaires remotely. There is also an optional sub-study that involves in-person visits with ultrasound imaging and in-person neurologic exams.
The purpose of this research study is to develop a protocol using a fully wearable, portable lower-limb exoskeleton for improving leg and walking function in people with movement disorders. The study investigates the effects of wearing the device during a set of experiments including leg stretching, treadmill walking and overground walking in muscle activity, joint motion, and gait performance. The goal is to develop an effective lower-limb strategy to restore lost leg function (e.g., range of motion) and gait ability, and improve quality of life in people with movement deficits following a neurological disorder.
Although spasticity, contractures and muscle weakness in children with CP are disorders that can be observed more easily and are more focused and given more importance in evaluation and treatment approaches; Inadequate or loss of selective motor control negatively affects motor functions to a greater extent. It is very important to reveal the causes and consequences of selective motor disability in children with spastic cerebral palsy, in terms of creating effective treatment plans. The number of patients to participate in the study was determined as 100. The study will be carried out in Hatay Mustafa Kemal University Research and Application Hospital, Department of Pediatrics. In our study, demographic information will be filled in, and lower extremity selective control assessment scale (SCALE) for lower extremity, upper extremity selective control scale (SCUES) for upper extremity, and sensory assessment (touch, two-point discrimination and proprioceptive sensory assessment) will be performed on the patients who accepted the study.
Whole body vibration has been widely used in rehabilitation of individuals with disabilities as well as children with cerebral palsy. Previous studies have demonstrated the efficacy of Whole body vibration on balance, gross motor function, spasticity and bone density in children with cerebral palsy. However, adding extra weight during Whole body vibration for children with cerebral palsy as a means of enhancing the potential effects of Whole body vibration is unknown. Therefore, the aim of this study is to examine the effect of Whole body vibration with weighted vest on trunk control, balance and gross motor function in children with spastic diplegia.
The general aim of the research is to provide scientific evidence that vibro-tactile stimulation (VTS) represents a non-invasive form of neuromodulation that can induce measurable improvements in the speech of patients with laryngeal dystonia (LD) - also called spasmodic dysphonia (SD).
This study aims to expand the knowledge and capacity for neuromodulation to improve the debilitating effects of severe spasticity (spasms, tonic muscle activity and/or clonus) in persons with spinal cord injury (SCI). The purpose of this study is to compare if spinal cord epidural stimulation can treat severe spasticity more effectively and have fewer side effects than a baclofen pump.
Stroke is one of the leading cause of death and disability worldwide. Post-stroke spasticity (PSS) is outbreak after a stroke and is featured by disabling muscle stiffness. PSS could manifest in up tp 50% cases within 6 months after a stroke, especially in the upper limb. Despite it is an acknowledged condition it is insufficiently recognized and treated in clinical practice. Focal and regional spasticity could improve with rehabilitation and in selected cases with botulinum neurotoxin (BoNT) type A injections. The latter causes muscle relaxation and fosters neuroplasticity, which is able in turn of ameliorating several patient functional aspects. Recent literature demonstrated that PSS patients treated with early BoNT (within 3 month since PSS outbreak) could improve in their clinical status better than patients with a later treatment. An earlier recognition of PSS predictors could improve patient management. Hence, the investigators are going to perform a multicentric prospective observational real life study with BoNT, based on the best clinical practice and aimed at the early recognition and management of PSS through the identification of 1) early clinical predictors of spasticity (collected within 10 days since stroke), 2) BoNT clinical outcome relative to the timing of the treatment
Prospective, open-label, non-randomized, single-arm, dose titration, phase II study. The study will consist of three injection cycles. In each, an injection visit is followed by an observation period of 12 to 20 weeks. During cycle 1, a total body dose of 16U/kg (maximum 400U) of IncobotulinumtoxinA will be injected into the spastic muscles of the affected limbs. During cycle 2, a total body dose of 19U/kg (maximum 475U) of IncobotulinumtoxinA will be injected into the spastic muscles of the affected limbs. If a dose of 19U/kg is not justified (i.e., for clinical or safety reasons) but BoNT-A treatment is still needed (according to the clinical condition of patients) the same dose injected in cycle 1 (16U/Kg; maximum 400U) may be administered in the cycle 2. During cycle 3, a total body dose of 22U/kg (maximum 550U) of IncobotulinumtoxinA will be injected into the spastic muscles of the affected limbs. If a dose of 22U/kg is not justified (i.e., for clinical or safety reasons) but BoNT-A treatment is still needed (according to the clinical condition of patients) the same dose injected in cycle 2 (19U/Kg; maximum 475U) may be administered in the cycle 3.