Erythropoietin Therapy for Children With Cerebral Palsy: Phase 1
Cerebral PalsyThis purpose of this phase 1 study is to investigate the safety and efficacy of erythropoetin for children with cerebral palsy.
Allogenic Umbilical Cord Blood and Erythropoietin Combination Therapy for Cerebral Palsy
Cerebral PalsyThis randomized control study is aimed to determine efficacy of umbilical cord blood and erythropoietin combination therapy for children with cerebral palsy.
Mobility Training to Improve Motor Behavior in Toddlers With or at Risk for Cerebral Palsy: A Pilot...
Developmental DelayCerebral PalsyBackground: - People who have cerebral palsy often have difficulty walking and moving their legs. Cerebral palsy is sometimes not identified until a child is almost 2 years of age, which means that early motor skill development can be affected and can have repercussions for later development. Studies in adults with neurological injuries (e.g., stroke, spinal cord injury) have shown that it is important to start intensive therapy soon after the injury, and it may be true that starting intensive therapy at a young age will be helpful for children with cerebral palsy. Researchers are interested in testing the effectiveness of a special body weight support system for mobility training in young children who have or are at risk for cerebral palsy. Objectives: - To study the effectiveness of a mobility training program on the motor skills of young children who have or are at risk for cerebral palsy. Eligibility: - Children between 12 and 36 months of age who have delayed motor skills and either have been diagnosed with cerebral palsy or show evidence of spasticity or brain damage. Design: This study involves two 6-week study phases: a baseline phase and a mobility training program. Participants will be screened with a physical examination and medical history. During the baseline phase, participants will have mobility testing sessions once every 2 weeks. These tests will measure motor development and ability, including ease and speed of walking. Participants' parents/guardians will receive a mobility sensor for the child to wear at home for at least 6 hours (awake time) to measure activity and mobility levels outside of the testing sessions. After 6 weeks of baseline testing, participants will have 6 weeks of mobility training for 30 minutes 3 days per week. Training will involve motor tasks with weight support, conducted by a pediatric physical therapist. Activities may include walking, climbing inclines or steps, or squatting to reach toys. All sessions will be videotaped. To evaluate the effects of the therapy program, participants will have testing sessions every 2 weeks. Parents/guardians will also complete questionnaires to provide feedback on the effectiveness of the therapy program.
Dysport® Pediatric Lower Limb Spasticity Study
Cerebral PalsyMuscle Spasticity1 moreThe purpose of this research study is to determine whether Dysport® is effective in the treatment of increased stiffness of the calf muscles and to evaluate the safety of this treatment in children with Cerebral Palsy. In addition this study will also check whether Dysport® can lessen the pain caused by spasticity and improve the child's wellbeing.
Clown Care for Botulinum Toxin (BTX)
Cerebral PalsyPainChildren with cerebral palsy (CP) undergo multiple painful procedures such as Botulinum toxin (BTX) injections that are administered several times a year. While clown care reduces preoperative anxiety, its effect on painful procedures has not been assessed. We hypothesized that medical clowning reduces pain and anxiety during BTX injections.
Effect of Botox and Vibration on Bone in Children With Cerebral Palsy
Cerebral PalsyMuscle SpasticityCerebral 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.
Phase III Clinical Trial of "Botulax®" to Treat Children With Cerebral Palsy
Other Infantile Cerebral PalsyTo compare the safety and efficacy of Botulax Inj.®(Botulinum toxin type A, Hugel, South Korea) with Botox Inj.® (Botulinum toxin type A, Allergan, USA) in the treatment of cerebral palsy in children.
Efficacy of Modified Constraint-induced Movement Therapy in Children With Brain Damage
Brain DamageCerebral Palsy1 moreThis research centers on the comparison of the immediate efficacy (right after therapy) and the maintained efficacy (3 months and 6 months) between "Modified Constraint-Induced Movement Therapy" (mCIMT) group and control group at different age.
Physical, Functional and Neural Effects of Two Lower Extremity Exercise Protocols in Children With...
Cerebral PalsyChildren1 moreBackground: Many people who have cerebral palsy (CP) have spastic diplegia, which affects the legs and causes difficulty with leg movement and walking. Research has shown that exercise can help those with CP learn to move their arms better, but more research is needed to determine whether exercise programs can improve leg movements in people with CP. Walking on a treadmill with the help of a physical therapist has improved the treatment outcomes of some individuals with spinal cord injuries. Many children with CP already have physical therapy but still have trouble with walking and leg coordination. Two other kinds of exercise machines, a stationary bicycle and an elliptical machine, used in the home, may be able to help children with CP walk better and move their legs better. Objectives: To see how children with cerebral palsy (CP) move their legs differently from children without CP. To see if an exercise program can improve leg coordination in children with CP. Eligibility: - Children between 5 and 17 years of age who either have spastic diplegia CP or are healthy volunteers. Design: Children who are able and willing will have magnetic resonance imaging (MRI) scans at the start and the end of the study. During Part I of the study, participants will demonstrate their leg and muscle function with the following tests: Measurement of leg size and movement Combined camera motion study and electrical impulse evaluation to assess how well the participant walks (with or without an assistive device, as needed) Leg movement tests on an exercise bicycle and elliptical machine Tests of leg muscle strength, stiffness, and effectiveness Ultrasound scans of leg muscle Parents of participants will complete computer-based questionnaires about their child s motor abilities. A smaller group of participants will continue to Part II of the study, which involves regular exercise of 20 minutes a day, 5 days a week, for 3 months, on a stationary bicycle or elliptical trainer. Half of the group will start this exercise program immediately after the first part of the study, while the other half will wait 3 months before beginning the exercise program. During Part II, participants will return to the clinical center for two more sets of the tests and evaluations performed in Part I.
A Multisite Trial of ACQUIREc Therapy
Hemiparetic Cerebral PalsyA multisite trial to testing different dosage levels of a systematic form of Pediatric Constraint-Induced (CI) Therapy called ACQUIREc Therapy. The high dosage treatment involved 6 hours of daily therapy services for 21 days. This was compared to a moderate dosage level of 3 hours of daily therapy services for 21 days. It was hypothesized that children receiving the higher therapy dosage would have greater and more clinically significant benefits from ACQUIREc Therapy but that both groups of children would benefit from the therapy services.