View clinical trials related to Muscle Spasticity.
Filter by:Patients after stroke with upper limb spasticity treated with botulinum toxin-A (BTX-A) will be included in this two-part study. In the first part, goal attainment scaling and comprehensive assessment of motor functioning will be performed before BTX-A application and after two weeks. In the second part, the patients will be randomised into a test group performing prescribed regular exercise for two weeks and a control group exercising at their own discretion during the same period, whereby the patients' health-related quality of life will be assessed at the beginning and end of the two-week period.
This study is aiming to demonstrate the non-inferiority of AbobotulinumtoxinA (aboBoNT-A) versus OnabotulinumtoxinA (onaBoNT-A) as the primary safety endpoint, and the superiority of aboBoNT-A over onaBoNT-A with respect to duration of response as the key secondary efficacy endpoint when used at optimal doses according to approved prescribing information of each product.
Spasticity is a common complication post stroke. Post-stroke spasticity along with weakness and lack of coordination result in gait abnormalities and functional limitations. Recent treatment option include neuromuscular electric stimulation (NMES), a form of therapy that applies electrical currents to produce contraction of innervated muscle by depolarizing local motor nerves. Currently, there are wide varieties of NMES devices available commercially for consumer. The main purpose of this study is to evaluate the feasibility and acceptability of a home-based NMES program on lower limb spasticity in patient with post-stroke more than 6 months and to assess the impact of the program. This is single arm prospective intervention study. Patient will apply home-based NMES on their leg for 20 minutes, 5 days a week for 4 weeks. At the end of the study, an outcome measures will be assessed and patient will be required to answer a questionnaires on their experience.
Until now, for children with cerebral palsy (CP) , diagnostic and some prognostic predictive machine learning studies have been conducted, but prognostic studies targeted specific milestone according to specific gross motor function measure (GMFCS) levels; such as walking and running predictors at GMFCS II and III and GMFCS II respectively, and not covered specific types of cerebral palsy. Predictions studies were limited by the lack of specificity of child and family characteristics was not taken into the account prospectively. It is therefore the utmost need to support clinical decision making by predicting the recovery in spastic cerebral palsy. Recovery predictive factors can play an important role for this purpose. Thus, this study aims to predict the recovery in spastic cerebral palsy according to all GMFCS level by means of a prediction index/model.
This study will investigate the effect of a 6-week stretching intervention, consisting of a combination of a 2-week casting period and a home-based stretching program of the plantar flexors and hamstrings, on muscle and tendon lengths, range of motion, stiffness, and functional muscle strength. The study will include patients with spastic cerebral palsy aged between 4 and 11 years old with a Gross Motor Function Classification Score (GMFCS) level between I and III.
This is a descriptive, prospective, non-controlled clinical investigation to be conducted on approximately 10 enrolled subjects at one site at Haukeland University Hospital in Bergen, Norway. The target subjects are male or female, 18-70 years, diagnosed with MS according to revised McDonald criteria (9) with spasticity and pain associated with the spasticity. Spasticity is evaluated based on self-reported spasticity using the numerical rating scale (NRS) which describes the average score of spasticity over the last 24 hours at >4 (where the scale scores spasticity from 0-10, where 0 is no spasticity, and 10 is worst possible spasticity), - combined with pain in the lower extremities last 24 hours. The pilot investigation is done to evaluate if FlowOx2.0™ can be used to treat spasticity with concomitant pain in patients with multiple sclerosis, using intermittent negative pressure affecting arteriovenous reflex.
This study aims to: - Investigate the effect of motor imagery training on gait kinematics in children with spastic hemiplegia. - Determine the effect of motor imagery training on balance in children with spastic hemiplegia. - Assess the effect of motor imagery training on trunk endurance in children with spastic hemiplegia.
This is a multi-center, randomized, double-blind (patient and evaluator), sham-controlled study to be conducted in stroke patients with upper-extremity spasticity. The main objectives of this study are to evaluate the performance and safety of the MyoRegulator® device in active- versus sham-treated patients after 5 consecutive days of treatment. The MyoRegulator® device is a non-significant risk (NSR) investigational non-invasive neuromodulation device that uses multi-site direct current (multi-site DCS) stimulation for the treatment of muscle spasticity.
Living with cerebral palsy is challenging for the child as well as the family charged with their care and support needs. Many families seek effective and sustainable interventions to improve gait of their children with cerebral palsy. The Mollii suit is a non-invasive therapeutic technology using electrical stimulation in the form of whole-body garment with multiple electrodes individually programmed to stimulate selected muscles. This study aims to examine if the Mollii suit improve gait in ambulant children with cerebral palsy and if the Mollii suit is acceptable and tolerable to children with cerebral palsy. We will recruit up to 20 children with cerebral palsy. This study will evaluate change in gait and function following a four-week intervention period using a protocol of wearing the Mollii suit at home for one hour every day for four weeks using instrumented 3-dimensional gait analysis and objective standardised assessment tools.
The Registry and Natural History Study for Early Onset Hereditary Spastic Paraplegia (HSP) is focused on gathering longitudinal clinical data as well as biological samples (skin and/or blood and/or saliva) from male or female patients who exhibited onset of HSP symptoms at 18 years old or younger with (1) a clinical diagnosis of hereditary spastic paraplegia and/or (2) the presence of variants in HSP related genes and/or be a relative of a person with such a diagnosis. Currently, the treatment for this disorder is generally symptomatic and available therapies improve quality of life, but are grossly inefficient in slowing the disease progression. Access to the registry information will be limited to the study staff who are responsible for recruitment and maintenance of the registry. We hope that recruitment into registry for studies will advance knowledge of the causes, clinical course, diagnosis and treatment of these conditions.