View clinical trials related to Muscle Spasticity.
Filter by:People with spinal cord injury (SCI) experience a host of secondary complications that can impact their quality of life and functional independence. One of the more prevalent complications is spasticity, which occurs in response to spinal cord damage and the resulting disruption of motor pathways. Common symptoms include spasms and stiffness, and can occur more than once per hour in many people with SCI. Spasticity can have a negative impact over many quality of life domains, including loss of functional independence, activity limitations, and even employment. Its impact on health domains is also pronounced, with many people who have spasticity reporting mood disorders, depression, pain, sleep disturbances, and contractures. Spasticity can interfere with post-injury rehabilitation and lead to hospitalization. There are many treatments for spasticity in this population. However, many do not have long-term efficacy, and, if they do, they are often pharmacological in nature and carry side effects that could limit function or affect health. The goal of this pilot, randomized-controlled study is to investigate the potential efficacy and safety of a non-invasive treatment with a low side effect profile, extracorporeal shockwave therapy (ESWT). ESWT has shown some benefits in people with post-stroke spasticity with no long term side effects. Thirty individuals with chronic, traumatic SCI will be recruited. Fifteen will be provided with ESWT while the other fifteen will be given a sham treatment. Clinical and self-report measures of spasticity and its impact on quality of life will be collected, as well as quantitative ultrasound measures of muscle architecture and stiffness. The ultimate goal of this pilot project is to collect the data necessary to apply for a larger randomized-controlled trial. Conducting a larger trial will allow for a more powerful estimation of safety and efficacy of ESWT as a treatment for spasticity in people with SCI.
For many people with spinal cord injury (SCI), the goal of walking is a high priority. There are many approaches available to restore walking function after SCI; however, these approaches often involve extensive rehabilitation training and access to facilities, qualified staff, and advanced technology that make practicing walking at home difficult. For this reason, developing training approaches that could be easily performed in the home would be of great value. In addition, non-invasive spinal stimulation has the potential to increase the effectiveness of communication between the brain and spinal cord. Combining motor skill training (MST) with transcutaneous spinal stimulation (TSS) may further enhance the restoration of function in persons with SCI. Therefore, the purpose of this study is to determine if moderate-intensity, MST can improve walking-related outcomes among persons with SCI and to determine if the addition of non-invasive TSS will result in greater improvements in function compared to training alone.
this study will be conducted to f find the effects of multiphasic neuroplasticity based training protocol with Shock Wave Therapy on Neurophysiological, Morphological and Functional Parameters of Post Stroke Spasticity.
The objective of this project is to investigate the validity of a handheld spasticity measurement tool against standard clinical measurements of spasticity. We propose the testing apparatus will accurately provide an equivalent clinical measure of spasticity while also providing a more precise estimation of spastic response in persons with stroke.
The purpose of the HSP Sequencing Initiative is to better understand the role of genetics in hereditary spastic paraplegia (HSP) and related disorders. The HSPs are a group of more than 80 inherited neurological diseases that share the common feature of progressive spasticity. Collectively, the HSPs present the most common cause of inherited spasticity and associated disability, with a combined prevalence of 2-5 cases per 100,000 individuals worldwide. In childhood-onset forms, initial symptoms are often non-specific and many children may not receive a diagnosis until progressive features are recognized, often leading to a significant diagnostic delay. Genetic testing in children with spastic paraplegia is not yet standard practice. In this study, the investigators hope to identify genetic factors related to HSP. By identifying different genetic factors, the investigators hope that over time we can develop better treatments for sub-categories of HSP based on cause.
Stroke is of high morbidity and mortality, and surviving patients are often unable to take care of themselves because of severe motor dysfunction. The brain has plasticity, and makes adaptive changes after stroke, resulting in the reorganization and compensation of neural networks. However, the muscle tone of some patients will significantly increase during the recovery process, which affects the rehabilitation effect. Neuromodulation techniques such as repetitive transcranial magnetic stimulation (rTMS) have been widely used to promote brain network remodeling after stroke. The investigators attempted to evaluate the motor brain network characteristics of spastic patients by fNIRS, and used the most active brain regions as rTMS stimulation regions to evaluate the improvement effect of this individualized treatment on post-stroke spasticity.
The study will be randomized controlled trial. This study will be conducted in Children Hospital Pakistan. A sample size of 60 will be randomly allocated into two groups, (30 participants in each group), by lottery method. - The participants randomly allocated into control group A, will receive conventional physiotherapy in the form of truncal exercises, which consists of upper and lower part of the trunk in spine and sitting position for a total 30 minutes including rest periods in between, once in a day for 4 days per week. - Participants in experimental group B receive both conventional physiotherapy and Pelvic Proprioceptive Neuromuscular Facilitation for 30 minutes, once in a day, 4 days per week for 12 weeks. - The experimental group received anterior elevation-Posterior depression pattern with the techniques of Rhythmic initiation, Slow reversal and Stabilizing reversal. - Affected side of the pelvis was given these techniques for total 30 minutes with 15 minutes of pelvic PNF in one session with rest periods in between. - Baseline data will be collected at baseline, 6 weeks and 12 weeks during follow up through Trunk Impairment scale (TIS) and Pediatric balance scale (PBS).
Background Effective management of spasticity, a debilitating and challenging condition afflicting many recovering from and living with neurological conditions, may reduce long term consequences such as limb contracture, skin breakdown, compromised mobility, caregiver burden and discomfort. In rehabilitation, spasticity represents a significant barrier to successful rehabilitation outcomes. Effective spasticity management can increases the length of individual functional status, reduces equipment/care needs, hospital admissions and extends the time people can stay safely at home, which would represent an economic benefit to the health system. Extra-corporeal Shock Wave Therapy (ESWT), an intense short energy wave delivered directly at the region of affected muscles has, in past randomized controlled studies, demonstrated positive outcomes for this population (spastic stroke population, TBI), on its own and as an adjunct to current modalities. In fact, one retrospective observational study demonstrated an increased efficacy of Toxin botulinum at 1 month when combined with ESWT. Where existing treatment options may be limited by coverage, access to delivery, complications and side effects, ESWT represents a potential to be a safe, low cost, efficacious alternative that can be administered by any trained clinician. Aims The aims of this pilot study will be to explore the hypothesis that adding ESWT to Botulinum Neurotoxin A (BoNTA) in spasticity post-stroke (TBI)will demonstrate greater clinical and patient reported outcomes compared to standard treatment with BoNTA alone, a comparison only once previously studied. Methods Incorporating randomization and placebo control (n= 20 in each arm), this patient-centric study will examine treatment goals and holistic perception of benefit after the treatment experience. We will use patient reported outcomes at baseline and at defined intervals after intervention. We will test our hypothesis using clinical and patient reported scales, such as the patient reported numeric rating scale (NRS) and goniometric range for spasticity as our primary outcome in conjunction with measures of muscle stiffness, quality of life, feasibility and acceptability of the protocol to help inform future study direction.
The purpose of this study is to collect data for Dysport® SMART BoNT-A therapy usage in an office-based setting in post-stroke participants with chronic (> 6 months) focal Upper Limb Spasticity who have been under stable oral antispastics treatment or patients with no current anti-spasticity treatment.
A mixed longitudinal design study will be carried out to explore the onset and time course of morphological muscle changes on a macroscopic level in children with spastic cerebral palsy (SCP). Therefore, this project aims to (1) describe the macroscopic morphological muscle changes with increasing age and (2) evaluate the onset and development of muscle alterations in relation to the brain lesion (e.g., timing, extent and location), to the neuromuscular impairments and to treatment. Overall, this project will evaluate the macroscopic muscle properties by means of 3D freehand ultrasound (3DfUS).