View clinical trials related to Muscle Spasticity.
Filter by:Cerebral Palsy (CP) is a group of movement and posture disorders associated with a non-progressive affect during brain development that can cause limitation of activity and disability. The most common movement disorders in CP are spasticity and dystonia. Currently, the treatment of muscle stiffness called spasticity includes physiotherapy, casting and device, various drugs and surgical treatment. Botulinum toxin injection into the muscle also acts by reducing muscle contraction. ESWT is a method used in various musculoskeletal diseases. It has been previously applied to pediatric patients and has been shown to be effective and painless in ankle muscle stiffness. However, there are few studies investigating the effect of ESWT on functionality.
The patients who were diagnosed with stroke in governmental/university/private hospitals, and who needed rehabilitation because of the increased flexor tone in the elbow joint, decreased range of motion and/or decreased function of the upper extremity will be invited to the study in accordance with the criteria that are given in inclusion and exclusion part. Participants will be randomly assigned to one of two parallel groups, either the PNF Stretching Group (n=17) or the Prolonged Stretching Group (n=17), according to the order of participation in the study by simple randomization. An online computer program will be used to assign participants (https://www.randomizer.org/). Exercises that will increase proximal stabilization and control will be applied to both groups for 4 weeks, 5 days a week. In addition to the exercises, prolonged stretches for 10 minutes will be applied to the Prolonged Stretching Group, and PNF stretching will be applied to the PNF Stretching Group. At the beginning and the end of the study, muscle architecture, muscular viscoelastic properties, range of motion, proprioception, upper extremity motor performance and function and posture will be evaluated.
There are limited but encouraging results supporting the use of dalfampridine in patients with hereditary spastic paraplegia. The investigators aimed to investigate the effects of dalfampridine on walking speed, muscle length, spasticity, functional strength, and functional mobility in patients with hereditary spastic paraplegia. In this triple-blinded, randomized, placebo-controlled trial, 4 patients with hereditary spastic paraplegia received dalfampridine (10 mg twice daily) plus physiotherapy (2 times per week), and 4 patients received placebo plus physiotherapy for a total duration of 8 weeks. The assessor and treating physiotherapists, and patients were masked to the group allocation. The primary outcome was Timed 25-foot Walk Test at the end of the 8-week treatment. The secondary outcome measures were functional mobility, functional muscle strength, muscle length, and spasticity.
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.
This study is based on a 4-week double-blind, randomized, controlled, parallel design investigation to investigate the impact of intermittent negative pressure on spasticity and pain in people with multiple sclerosis (pwMS) (NCT05562453). The investigational device (FlowOx2.0™) is composed of a Pressure Chamber and a Control Unit (and disposable parts). All subjects will receive the same pressure chamber but be randomized to either a Control Unit that generates intermittent negative pressure (INP) of - (minus) 40 mmHg or a Control Unit that generates INP of - 10 mmHg. FlowOx2.0™ generating -40 mmHg is the investigational device, and FlowOx2.0™ generating -10 mmHg, is the comparator device. After the initial 4-week double-blind period (NCT05562453), all participants will be offered the -40mmHg control unit to be used during a 6-months optional extension part. The participants who volunteer to continue in the 6-months optional extension part will be included in this study.
Trunk control in children with spastic Cerebral Palsy (CP) is impaired. They have weaker trunk muscle strenght, and insufficient sitting/standing balance according to their developing peers. Since their weak trunk muscles and insufficient balance responses, they are not able to walk as functional similar to their peers. Additionaly limit of stability is worsen in children with CP. Investigation of the relationship between walking ability and limit of stability when seated position is important to understand which child is acceptable for training of walk. However we did not found any study to explain it. Therefore the aim of this study is to investigate walking ability and limit of stability in children with spastic CP, and to compare their developing peers.
The study is a 4-week double-blind, randomized, controlled, parallel design investigation to investigate the impact of intermittent negative pressure on spasticity and pain in people with multiple sclerosis (pwMS). The investigational device (FlowOx2.0™) is composed of a Pressure Chamber and a Control Unit (and disposable parts). All subjects will receive the same pressure chamber but be randomized to either a Control Unit that generates intermittent negative pressure (INP) of - (minus) 40 mmHg or a Control Unit that generates INP of - 10 mmHg. FlowOx2.0™ generating -40 mmHg is the investigational device, and FlowOx2.0™ generating -10 mmHg, is the comparator device. After the initial 4-week double-blind period, all participants will be offered the -40mmHg control unit to be used during a 6-months optional extension part.
Individuals with spinal cord injury (SCI) often suffer from pain and spasticity. Traditional treatments for both of these conditions have been medications. However, it has been suggested that the counterstrain osteopathic manual manipulation treatment can decrease pain and possibly spasticity. The aim of this study is to investigate the effects of counterstrain osteopathic manual manipulation treatment on pain and spasticity in individuals with SCI.
The use of interactive applications associated with position and movement sensors has begun to spread as an option for the reinforcement of physical rehabilitation therapies in patients with congenital or acquired motor disorders as a result of some neurological damage, due to its portability and the relative autonomy granted to the patient. However, the results of its effectiveness and impact continue to be scarce compared to the traditional therapy used for rehabilitation. The aim of this study is to explore possible benefits associated with occupational therapy with video games in patients with unilateral spastic cerebral palsy, comparing them with conventional therapy. A randomized pilot study will be carried out, with a control group. The intervention will consist of the application of a virtual rehabilitation program for the experimental group while the control group will receive only conventional therapy. Before and after the said intervention, standardized tests will be applied to evaluate both motor function and the cognitive performance of the participants.
The participants of this study will have AUL spasticity and have a need for botulinum toxin type A injections. AUL spasticity is where people develop tightening or stiffness of the muscles in the arms. Botulinum toxin type A is used for the treatment of spasticity in addition to physiotherapy. This study will ask participants to describe their experience living with AUL spasticity. This information will be used to assess the Arm Activity Measure (ArmA). ArmA is a scale designed to assess upper limb function in people with AUL spasticity. This study could suggest changes to the ArmA to improve its suitability for people with AUL spasticity or even the development of a new scale.