Active clinical trials for "Muscle Spasticity"

Cerebral palsy (CP) is the most common neuromuscular disorder among children, resulting from a non-progressive injury during early brain development which leads to impairment of movement and posture. Muscle weakness and spasticity associated with CP limit the joint range of motion and negatively impact ambulatory ability. Most ambulatory children with CP are prescribed with ankle-foot orthoses (AFOs) to improve ankle position and stability and to maintain muscle range. Nevertheless, AFOs may also restrict desired motions and may exacerbate muscle weakness and atrophy. During the last years a novel method is being used for treating upper motor neuron drop foot, by means of dynamic orthoses, namely Functional Electrical Stimulation (FES). These FES devices cause dorsiflexion of foot by stimulating the peroneal nerve and activating the tibialis anterior muscle. Most of the studies of FES devices were conducted on adult population. These studies showed improvement in laboratory and functional gait parameters. There are relatively few studies on children with hemiplegic or diplegic CP with favorable results. There is no solid evidence whether the improvements seen in laboratory setting of children with CP, are reflected on functional ambulation in daily life. In addition, there are no defined parameters which could predict the response to FES among those children. The aim of this study is to determine whether using FES device (WalkAide; Innovative Neurotronics, Austin, TX, USA) improves daily motor function and gait parameters in children with spastic hemiplegic or diplegic CP. additionally, we aim to define clinical and biomechanical parameters that can predict a favorable response to using the FES device.

The purpose of this study is to determinate whether the application of electric currents produce changes in the excitability of alpha moto neurone. Moreover evidence whether the effect of the electric currents can change the tone of the muscle under stimulation in healthy volunteers

Muscle alterations and modifications passive biomechanical properties that occur on a spastic muscle contribute to functional disorders involved in spasticity. Botulinum toxin (TB) A is the reference treatment of the focused spasticity, and muscle source structural and biomechanical changes, very little studied in humans, especially since it is not one possibility of easily and reliably paraclinical assessment injections consequences.

Background: Hereditary spastic paraplegia (HSP) usually progresses slowly. Researchers want to learn more about how its symptoms change over time. They want to look for changes in the blood and cells of people with the most common forms of HSP that might allow them to better understand the disease. Objectives: To learn more about common forms of hereditary spastic paraplegia and find out how it progresses over time. Eligibility: People age 7 and older with SPG3A, SPG4A, or SPG31 Design: Participants will have 1 two-hour visit each year for up to 5 years. At 1 visit, adult participants may have a skin biopsy. An area of skin will be numbed then a tool will remove a small piece of skin. At all visits, all participants will have a physical exam and blood drawn. At all visits, participants will do a few tasks like walking quickly and climbing stairs. Participants can give permission for their skin cells, DNA samples, and data to be used in other studies. The samples and data will have no identifying information.

The study has been conducted to see the effects of traditional massage on spasticity and activity of children with cerebral palsy (CP). It is a randomized controlled trial having two groups, control and intervention. Both groups received routine physical therapy treatment comprising stretching of tight muscles, strengthening of weak muscles, positioning and handling. Intervention group also received traditional massage in addition to routine physical therapy. Caregivers were trained to perform routine physical therapy treatment and traditional massage at home. Data was collected using a structured questionnaire, Modified Ashworth Scale (MAS), Gross Motor Function Classification System (GMFCS), Gross Motor Function Measure (GMFM) and CPChild Caregiver Priorities & Child Health Index of Life with Disabilities at baseline, after 06 weeks and 12 weeks of intervention.

To estimate the effectiveness of strength training after administration of botulinum toxin in children with spastic diplegic cerebral palsy and hemiplegic cerebral palsy on muscle volume and gross motor function. Forty Children with spastic diplegic cerebral palsy (CSDP) and children with hemiplegic cerebral palsy (CHCP) in GMFCS levels I, II and III will be recruited by the convenience sampling method. Thickness of both hamstring and gastrocnemius will be recorded with Ultra Sound Imaging method, pre and post 12 weeks of intervention. In ST group only strength training will be provided. While in BT-ST group, strength training will be provided after the administering Botulinum toxin into the muscle belly guided under Ultra sound imaging. Pre-post intervention differences in muscle thickness and gross motor function will be recorded and analysed.

Cerebral palsy (CP) is a non-progressive condition of the central nervous system caused by immature brain damage before, during or after birth. Persons affected by CP experience disability of various types. In individuals with CP, one of the most frequent symptoms is limited hand function. Other issues that often occur are muscle weakness, spasticity and problems with balance. Injection with Botulinum Toxin A (BoNT-A) is common treatment for spasticity in patients with injury in central nervous system, e.g. traumatic brain injury, stroke, spinal cord injuries and CP.The main goal of the project is to explore if motion controlled video game treatment alone or in combination with injection treatment with BoNT-A lead to improvement of hand function, activity and participation in adults with CP. In the project, the investigators will evaluate if these two interventions improve balance in adults with CP. Participants will be psychologically tested in the beginning and the end of the project to evaluate if interventions can have positive effect on psychological symptoms such as depression and anxiety, The project is multidisciplinary. It involves a doctor, a nurse, an occupational therapist, a physiotherapist and a psychologist. The team will in ordinary clinical practice examine participants. Individual goals will be set up in agreement with each participant. The goals will be measurable, achievable and time bound. By reviewing scope of agreed goals, the investigators will be able to summarize most frequent problems that CP patients experience in their daily life. There will be 25 participants in the study and they will be followed for 9 months. During every visit the team will examine participants, perform relevant tests and obtain objective and subjective outcomes. It will be assessed to what degree the goals have been achieved. The investigators also want to evaluate long term effects of the two intervention applied in the study. Therefore, the participants will be finally assessed 3 months after last intervention period. Based on study results, implications for future treatment volume and organization of the rehabilitation for persons with spasticity will be discussed with the participating units, hospitals, municipalities and policy makers. Professionals included in this project are also clinicians and will have an important role in ensuring that the findings are included in clinical guidelines and educational activities.

Stroke is a serious clinical condition and one of the leading causes of long-term disability in the world. One of the most serious complications of this condition is spasticity. Recently, dry needling has commented to be used as a treatment in muscle spasticity of chronic patients after a stroke, producing improvements in clinical conditions. This study evaluates the effectiveness of dry needling technique in the spasticity of the hemiparetic limbs in chronic post-stroke patients. The Modified Ashworth Scale is used to measure the spasticity´s improvement after the procedure.

Cerebral palsy(CP) consisted of a group of developmental disability in the field of motor function and is one of the major problems of pediatric neurology and at the present time there is no standard curative medical or surgical treatment for it .Stem cell therapy is one of a new and hopeful therapeutic methods of therapy for CP .This double blind study designed for the evaluation of safety and therapeutic effects of intrathecal hematopoietic and mesenchymal stem cells derived from allogenic umbilical cord in change and probable improvement of developmental functions of spastic CP participants between 4-14 years old and comparing with control group of CP participants without cell therapy . 108 cases recruited and randomly divided to 3 groups of 36 cases : hematopoietic stem cells derived from allogenic umbilical cord , Mesenchymal cells derived from allogenic umbilical cord and control group without injection and appearance simulating lumbar puncture without awareness of the patients and evaluators . Developmental functions and spasticity evaluated before intervention and will be done 1 , 3 , 6 and 12 months after injection . During this period neuro rehabilitation will be continued . Brain neuroimaging were done at the recruitment time and will be repeated after 12 months .

Deficits in upper limb (UL) functional recovery persist in a large proportion of stroke survivors. Understanding how to obtain the best possible UL recovery is a major scientific, clinical and patient priority. We propose that UL motor recovery may be improved by training that focuses on remediating an individual's specific motor impairment. Our approach is based on evidence that deficits in the control of muscle activation thresholds (spatial thresholds) of the elbow in stroke underlie impairments such as disordered movement and spasticity. Our novel training program focuses on improving the individual's active elbow control range using error augmentation (EA) feedback. Since training intensity and lesion load are key factors in motor recovery that lack guidelines, we will also investigate effects of exercise dose and corticospinal tract (CST) injury on UL recovery. In this multicenter, double-blind, parallel-group, randomized controlled trial (RCT), patients with stroke will participate in an individualized intensive technology-assisted reaching training program, based on error augmentation (EA), in order to improve voluntary elbow function. They will practice robot-assisted reaching in a virtual reality (VR) game setting. We will identify if intensive training with feedback aimed at expanding the range of spatial threshold (ST) control at the elbow (experimental group) is better than intensive training with general feedback about task success (control group). We will also determine the patient-specific optimal therapy dose by comparing kinematic and clinical outcomes after 3, 6 and 9 weeks of intensive training, and again at 4 weeks after training to determine carry-over effects. We will quantify the severity of the participant's motor deficit, as the amount of cortico spinal tract (CST) injury due to the stroke (%CST injury) and relate training gains to their %CST injury. Results of this pragmatic trial will provide essential information for optimizing individualized post-stroke training programs and help determine optimal patient-specific training dosing to improve motor recovery in people with different levels of stroke severity. This type of research involving personalized, impairment-based feedback and dose-effective training has the potential to significantly improve rehabilitation for a greater number of post-stroke individuals and improve the health and quality of life of Canadians.