View clinical trials related to Cerebral Palsy.
Filter by:The purpose of this study is to find out if there is a benefit to using the MyREADY Transition[TM] BBD App for brain-based disabilities, compared to not using it. To do this, some of the participants in this study will use the MyREADY Transition[TM] BBD App and others will not use the App. Everyone will continue to get the same care they have been getting (their usual care). The study team wants to see how youth will use the MyREADY Transition[TM] BBD App as they are getting ready to leave the children's hospital or children's treatment centre. And, they want to see if it will help youth to be knowledgeable about their own health. The study team hopes to see youth taking steps to develop the skills so they become better managers of their health. For example, this would include knowing about their medication or knowing when to ask for help from parents/caregivers and health care providers.
People with one arm that does not function well due to a stroke, head injury, or cerebral palsy, and a fully functional other arm, will be randomly assigned to receive one of the two interventions first, followed by the other intervention. The two interventions include a task-based intervention and a virtual reality intervention that provides a reflected image of the involved arm. The task-based intervention will consist of setting up activities of interest to be done using the involved arm and structuring practice and meaningful feedback to assist learning. The virtual reality intervention will consist of the person wearing the virtual reality device and practicing virtual tasks using the intact arm while seeing the involved arm. Intervention sessions will last approximately 30 minutes and will be held 3 times/week for 3 weeks each for a total of 9 sessions for each intervention. Testing of the involved arm's function will be done before the interventions, after receiving 9 sessions of each intervention, and one month after completing the second intervention received.
Children with cerebral palsy present early in the childhood altered muscular properties, as soon as structural or stiffness. In the gastrocnemius muscle, altered muscular properties are characterized by short muscle belly length and increased stiffness which contribute to contracture and limiting joint range of motion.
Ankle foot orthoses (AFO) are frequently used to improve locomotor skills of cerebral palsied children (CP) although the level of scientific evidence to support their use is still moderate. Carbon Ankle Seven spring (A7 - Otto Bock, Germany) is specifically designed to store energy when loaded and release it at toe-off in order to improve gait performance with respect to non-energy-storing AFOs. The aim of this work is to verify the superiority of the ankle-7 orthosis compared to the more widespread AFO, to improve the functionality and walking function of children with spastic diplegia and PCI.
SPARCLE 1 and 2 studies followed a cohort of 818 children with cerebral palsy (CP) between 8 and 12 (SPARCLE 1) and 13 and 18 years old (SPARCLE 2) interviewed at home. The prevalence of pain in these populations was respectively 60 and 69% while it is about 35% in typically developed children of the same age. The main location of the pain for 60% of children with CP was the lower limbs, caused by musculoskeletal pain and movement (for those who can) and therapeutic procedures. In SPARCLE 2, 50% of the children complained about pain during physical therapy. If the pain is part of the management of physiotherapy, a recent review showed that for a condition such as chronic back pain, the level of evidence of the effectiveness of physiotherapy techniques in reducing pain is low. The effectiveness of these techniques would include higher efficacy on anxiety than pain itself. Despite significant involvement of physiotherapists in the management of pain, the focus on pain should increase, in particular taking into account the procedural/induced pain (caused by treatment). In addition to drugs, physical methods (analgesic therapy) or psychotherapy are used to reduce the pain of children during medical procedures. For the latter most of them require the presence of two individuals to provide the therapy. This is unsuited for out-patient care provided to the majority of children with CP. Non steroid anti-inflammatory drug (NSAIDs), are first recommended, alone or in combination with the treatment of several indications in child pain (migraine, postoperative pain, etc.). Ibuprofen is commonly used in children during painful procedures and represented the 4th molecule among prescribed per os analgesic drugs in 2008 in the United States.
This research will lead to the first evaluation of intrinsic and dynamic joint and muscle mechanics of equinus in cerebral palsy. It would provide a direct cause and effect relationship between equinus and bone deformity. Mechanical insights to the pathophysiology of the targeted muscles will lead to better understanding and, thus, to a better medical and surgical management of equinus deformity. Secondary aim will provide an important insight whether key gait parameters can be exclusively relied upon for surgical treatment planning and evaluation. In a medium-term perspective, depending upon the results of this study, dynamic MRI of the ankle joint may serve as a guiding tool for fixed equinus surgery in case of cerebral palsy.
This study is being performed to assess how certain chronic disabilities - stroke, upper extremity (UE) amputation, spinal cord injuries (SCI), cerebral palsy (CP) - differ from healthy subjects in their ability to perform ADLs. By studying the kinematics of the respective cohort of study participants as they are assessed performing common activities of daily living (ADLS), the investigators research team aims to better understand how impaired neural pathways, and pathways that have been impaired at various points along the pathway, deleteriously affect ADLs in patients with differing long-term disabilities.
The purpose of this double-blinded, placebo-controlled study is to test if treatment with Botulinum toxin-A is effective in reducing chronic muscle-related pain in adults with spastic cerebral palsy.
This study evaluates Analgesia Nociception Index (Heart Rate Variability based index) and its variations after painful stimulations in children with cerebral palsy : acute procedural pain (botulinum toxin injections), and recurrent pain (physiotherapy).
The purpose of this study is to determine whether Repetitive Transcranial Magnetic Stimulation (rTMS) can augment occupational therapy in improving motor function in children (10 years of age or older) and young adults (< 21 years of age) with chronic hemiparesis from either stroke or cerebral palsy.