View clinical trials related to Spastic Diplegic Cerebral Palsy.
Filter by:This trial will enroll 75 children with spastic diplegic cerebral palsy both matched in age, sex, degree of disability and cognitive functions with the same exclusion criteria undergoing the same physical therapy. All enrolled children will undergo routine physical therapy program and will be divided into three groups (n = 25 per group) according treatment methods. Group A: children will be given local injections of botulinum toxin type ,Group B: children will be given repetitive transcranial magnetic stimulation on the affected side; Group C: children will be given local injections of botulinum toxin type A combined with repetitive transcranial magnetic stimulation , the three groups will take physical therapy (PT) of 45 minutes duration 4 days a week for 3 months .The grade of spasticity will be assessed by using Modified Ashworth scale and M/H ratio by using EMG. The grade of motor function will assessed by using Gross Motor Function Classification System (GMFCS).
Combining the advantages of both Neuromuscular electrical stimulation and lower limb serial casting to a selected physical therapy program in children with spastic diplegic cerebral palsy to overcome the adverse effects during the period of casting and the long period of rehabilitative interventions, providing a new multimodal treatment approach.
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.
The study is about the effect of an exercise program using stationary bicycling for children with the spastic diplegic form of cerebral palsy. Spastic diplegia is a type of cerebral palsy that involves spasticity or "tightness" of the leg muscles. We hope to learn whether this type of exercise will allow the children to develop improved strength in the muscles that bend and straighten their knees, enhance their level of physical fitness, improve their ability to walk and improve their ability to perform other activities that are important to them. We hypothesize that children who participate in the stationary cycling intervention will gain strength in the muscles that bend and straighten their knees, will be able to complete a 600 yard walk run test (a test of endurance) more rapidly, and will improve their score on a test of function called the Gross Motor Function Measure (a test designed specifically for children with cerebral palsy).
The purpose of this study is to determine if using high-intensity, short-duration, intermittent neuromuscular electrical stimulation (NMES) is better than volitional exercise in increasing quadriceps femoris and triceps surae force-generating potential and gross motor function in children with cerebral palsy.
The study proposes to determine if injections of BTX-A to the hamstring muscles result in measurable physiologic changes not observed with normal saline injections in children with spastic diplegic cerebral palsy who walk with a flexed-knee gait pattern.
Reduction of spasticity has been a major focus of the treatment of childhood cerebral palsy, resulting in numerous treatment strategies that target various parts of the motor system. However, in many children weakness may be a greater contributor to disability than spasticity. Recent results suggest a correlation between spasticity and weakness, but it is not known if reduction of spasticity can improve strength. We suggest a simplified model in which spinal mechanisms (including reflex contributions to spasticity) and supraspinal mechanisms (including voluntary contributions to strength) combine to activate muscle. The model implies that the supraspinal contribution cannot increase unless the spinal contribution decreases. We therefore hypothesize that reduction of spasticity improves the ability to increase voluntary strength. We propose a double-masked placebo-controlled clinical trial combining treatment using the oral anti-spasticity medication baclofen with a 6-week program of strength training. We will enroll 20 ambulatory children with spastic diplegic cerebral palsy. Prior to and following the intervention, we will obtain quantitative measures of spasticity, strength, and gait. We predict that the children taking baclofen will have a greater increase in strength than the children taking placebo. We predict that the increase in strength will be reflected in improved performance on gait analysis, and it will correlate with a reduction in quantitative measures of spasticity and spinal reflex excitability. If the hypothesis is correct, it will provide important new information on the relationship between spasticity and strength in children with cerebral palsy. It will provide the first measurements of the effect of baclofen on voluntary muscle activation in children. It will support the short-term use of combined anti-spasticity medication and strengthening as a new clinical treatment for ankle weakness in children with spastic diplegia. A successful result will have immediate and significant implications for treatment of children with cerebral palsy.