Spread And Effectiveness Of Botulinum Neurotoxin A In Spastic Equinus In Cerebral Palsy
Cerebral Palsy and Botulinum ToxinObjectives. To study the short-term neurophysiological and clinical outcome of botulinum toxin type A(BoNT-A), injected at standard doses, and assess toxin spread to neighboring uninjected muscles in children with cerebral palsy. Subjects and methods. The investigators studied 18 ambulatory children with dynamic equinus foot deformity (mean age 6.1 years). The gastrocnemius muscle on the affected side was injected with BoNT-A (Dysport, range from 8.9-19.4 U/kg). As the primary neurophysiological outcome measure, compound muscle action potential (CMAP) areas were assessed in the lateral gastrocnemius (LG) and tibialis anterior(TA) muscles on the treated and untreated side before BoNT-A injections (T0), and on days 10 (T10), and 30 (T30) after injections. Clinical scales were assessed and video gait was analyzed at all three time points. Results. In all patients, CMAP areas recorded from the LG and TA muscles on the treated side decreased significantly from pre-injection values at T10 (p<0.05) and T30 (p<0.002). Assessment at both time points after injections also showed that ankle spasticity had diminished (p<0.05), equinus foot excursion increased (p<0.05), and functional gait improved (p<0.05). Conclusion. Although BoNT-A injected at standard doses improves gait in children with spastic equinus foot the toxin spreads to uninjected leg muscles. BoNT-A treatment for cerebral palsy therefore needs individualizing according to the child's clinical features.
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.
Efficacy Study of an Interactive Robot for the Rehabilitation of the Upper Limb in Children With...
Cerebral PalsyCerebral Palsy (CP) is a major cause of impairments in child population. This disease justifies an intensive and prolonged multidisciplinary rehabilitation which can be optimised by robotics. Our team has developed a robot designed to rehabilitate the child's upper limb. This robot allows the patient to perform active, passive, or assisted exercises. This therapy is designed to promote motor development in children with CP. Its finality is to improve patients' quality of life and participation. Several pilot studies evaluated the efficacy of robotic assisted therapy in children with CP but none RCT has been done. Then, the aim of the study is to evaluate the efficacy of robotic-assisted therapy in children with cerebral palsy by evaluating the 3 fields of the ICF (International Classification of Functioning, Disability and Health) and performing a prospective randomized controlled single blind trial. Therefore, all patients will benefit from a classical rehabilitation as a basis. Furthermore, patients of the control and experimental groups will receive a supplement of classical rehabilitation and robotic-assisted therapy, respectively.
Intense Physiotherapies to Improve Function in Young Children With Cerebral Palsy
Cerebral PalsyCerebral palsy (CP) is a non-progressive disorder caused by an insult or injury to the brain when the brain is most rapidly developing and which results in some motor dysfunction. Causes for the injury to the brain are numerous and can occur prior to birth, during the birth process, or within the first few months following birth. The motor dysfunction can involve any or all four extremities but most often affects the legs, causing abnormal ambulation. The level of severity depends on the extent of the injury to the brain and can be mild to severe. In severe instances, the child is dependent on others for all his/her care. There is no known cure for CP, but physical and occupational therapies are administered in an attempt to improve function. The frequency of these therapies varies from once a week (the standard of care in the Western Hemisphere) to five times a week (the standard of care in Asia and some Eastern European countries). The current understanding of brain plasticity offers a theoretical explanation to justify the more intense approach. Active repetitive motor skill-directed rehabilitation utilizes the plasticity of the brain and can restore some function. Intense active physiotherapy can stimulate non-injured but 'dormant' neurons and prevent their 'natural' degeneration in order for them to substitute for the function of injured neurons. It is the very young brain that is most likely to respond to this therapy. The aim of this proposal is to evaluate the effect of administering both physical and occupational therapy five times each week for 12 weeks and compare it with the standard of care (SOC) approach of one time each week in children between the ages of 12 months and 36 months. This is the first randomized crossover trial to both enroll this young a population of children with cerebral palsy as well as to evaluate this approach from both the therapists and the parents perspectives. The number of children that this study will enroll is larger than in most CP studies. The children will be evaluated clinically with two validated instruments, one of which was designed specifically for children with CP and is administered and scored by certified therapists and the other which was designed for children with developmental disabilities and is scored by the child's care provider. A sub-set of children will have a special type of MRI to evaluate any changes in the neurological structure of the brain. The Department of Pediatrics at the University of Arizona recently completed a collaborative study with the Neurologic Department at the Beijing Children's Hospital where the intense approach of five therapies per week is the SOC. The positive results prompted another investigation to determine if such an approach would be feasible in the United States. A compliance rate of 81% confirmed feasibility and the perception that parents who have a child diagnosed with CP will do whatever they can to improve their child's motor function.
Efficacy and Cost-effectiveness of Spasticity Treatment With Multifocal TENS
SpasticityStroke1 moreSpasticity is a common consequence of injury to the central nervous system and can be a major problem in motor function and everyday activities. A method for treating spasticity that applies low-amplitude electrical stimulation through a garment with built-in electrodes, Mollii® (Elektrodress), has been developed. The garment is to be used in combination with individualized training and the stimulation is mainly given to antagonists of spastic muscles. The general objective of this study is to evaluate the efficacy of and costs associated with the Mollii® treatment of spasticity due to stroke or cerebral palsy. Primary objectives are; to study whether treatment with the Mollii® improves function and activity to evaluate the cost-effectiveness of the treatment, from both a health-care perspective and a societal perspective. Secondary objectives are; to study whether there are differences in treatment effect between the stroke and the Cerebral Palsy groups in a subgroup-analysis to assess compliance with treatment to report any adverse effects.
Umbilical Cord Blood Therapy for Cerebral Palsy
Cerebral PalsyThis randomized controlled study aims to evaluate the efficacy of umbilical cord blood therapy for children with cerebral palsy.
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.
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.
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.
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.