View clinical trials related to Cerebral Palsy.
Filter by:This study aimed to compare the efficacy and safety of Meditoxin® injection for cervical dystonia in adults with cerebral palsy. It is a placebo controlled, Cross-over, Double blind, Randomized, Clinical trial.
In this study, the investigators aim to assess the clinical and neurophysiological effects of a non-invasive brain stimulation technique - transcranial direct current stimulation (tDCS)- on cortical plasticity and motor learning in children with cerebral palsy. Investigators will use different assessment techniques, such as transcranial magnetic stimulation (TMS) and kinematics (sensors) to measure changes through the trial.
" Cohort CP " is a multicentre cohort study, initiated by the Hospices Civils de Lyon in September 2009. Population targeted are children with bilateral cerebral palsy, level GMFCS IV or V, aged from 2 to 10 years at inclusion. They are followed-up during 10 years, at the rhythm of 1 visit per year. At each visit are collected clinical, orthopaedic, radiological and environmental data. The primary objective is to establish the incidence of orthopaedic complications (scoliosis and hip joint) depending on patients' age. Secondary objectives are to describe the sequences over time of these complications and the related pain, to explore the impact of nutrition, surgery, asymmetric postures and environmental factors, and to describe the medical and rehabilitative follow-up of these patients. 385 patients are expected by the end of 2020. We expect of this long-term follow-up to gain tools that permit to improve patient's care and patient's quality of life, by putting in place preventing actions and adapted treatments related to their own pathologies.
The purpose of this study is to examine the reliability and validity of the rating of perceived exertion scale in children post severe traumatic brain injury during treadmill exercise.
This Study is Single arm, Single Centre trial to study the safety and efficacy of bone marrow derived autologous mononuclear cells (100 millions per dose)study enrollment duration 36 months sample size 100 patients should be treated (above 15 years of age) with cerebral palsy in India. Primary outcome measures are improvement in walking ability and kinetic gait pattern.
This Study is Single arm, Single Centre trail to check the safety and efficacy of bone marrow derived autologous mononuclear cells(100 millions per dose )trial to be conducted for 36 months in 100 patients ( below 15 years of age) with cerebral palsy in India. Primary outcome measures are improvement in walking ability and kinetic gait pattern.
Background: - Two ways to study the brain while people are moving are near-infrared spectroscopy (NIRS) and electroencephalography (EEG). NIRS uses light to look at blood flow in the brain when it is active. EEG records electrical activity in the brain. Both have been used safely for many years, even in very young children. NIRS or EEG can be used while a person is moving to show which parts of the brain are the most active. Researchers want to use NIRS and EEG to study brain activity during movement in people with cerebral palsy and healthy volunteers. Learning more about how people with and without cerebral palsy use their brain to control their muscles may lead to new ways of training people with cerebral palsy to move better. Objectives: - To study how the brain controls body movement in people with and without cerebral palsy. Eligibility: - Individuals at least 5 years of age who have cerebral palsy. - Healthy volunteers at least 5 years of age. Design: - This study has three parts. People with cerebral palsy will be selected for all three. Healthy volunteers will be asked to do only two of them. Everyone who participates will have NIRS and/or EEG exams during movement. People with cerebral palsy may also have biofeedback sessions to train coordination of movement and brain activity. - Participants will be screened with a physical exam and medical history. Urine samples may be collected. - All participants will have at least one session of NIRS and/or EEG imaging studies. Sessions may also include the following tests: - Magnetic resonance imaging to look at the brain - Electromyography to measure electrical activity of the muscles - Motion analysis of specific body parts - Ultrasound to measure activity of the muscles - Motorized, robotic, and electrical stimulation of the muscles - Other clinical tests of muscle movement as needed. - Participants with cerebral palsy will have biofeedback sessions. These sessions will help them learn to coordinate muscle movement and brain activity.
The purpose of this study is to evaluate how a functional electrical stimulation (FES) device worn on the lower leg effects how children (ages 6-17 years) with hemiplegic cerebral palsy walk and perform other functional activities. The investigators expect to find that wearing the functional electrical stimulation device will improve walking and other functional activities of children with hemiplegic cerebral palsy. Participants will be trained in use of the device and will be required to wear it daily for 3 months. Each participant will be evaluated before beginning the intervention and after completing the intervention. This study will provide important information regarding the benefits of this treatment intervention in children with hemiplegic cerebral palsy.
The investigators hypothesize that children with spastic cerebral palsy will show greater improvements in gross motor function, associated developmental skills and growth after the 3 months of myofascial structural integration treatment, a form of deep massage, than they showed after a 3- or 6-month pre-treatment waiting period. The investigators further hypothesize that children with spastic CP will maintain their gains in gross motor function for ≥ 3 months after completion of MSI treatment.
Cerebral palsy (CP) is a neuromuscular disorder that affects approximately 800,000 individuals in the U.S. An estimated 70-80% of these individuals have spasticity which affects ambulation and requires management. Therefore, the treatment of spasticity is a primary goal of interventions for children with CP. One treatment widely used to reduce spasticity is Botox because of its ability to temporarily paralyze a muscle. However, no studies have determined the effect of Botox treatment on bone in humans. Also, a low magnitude vibration treatment has been shown to improve bone structure in the lower extremity bones of children with CP. The aims of this study are: 1) to determine the effect of Botox treatment in conjunction with a daily vibration treatment on bone mass and bone structure in children with spastic CP, and 2) to identify the mechanism that underlies the effect of Botox and vibration on bone.