View clinical trials related to Cerebral Palsy, Spastic.
Filter by:Neurologic changes caused by cerebral palsy (CP) result in adaptation of muscle architecture and function (e.g. shortened muscles and contractures). Stretching through immobilization (orthotic treatment) is one of the common interventions to bring the spastic muscle to growth. Positive outcomes of stretching through immobilization are increased range of motion and improved function. On the other hand, immobilization leads to disuse muscle atrophy. Hence, we hypothesize that combining a stretching through immobilization and muscle activity while controlling for foot deformity could be a superior treatment approach, which should lead to improved muscle morphology as well as function. The aim of the study is to examine the influence of two orthotic treatments (a standard regime and one new approach) on spastic plantar flexor muscles in children and adolescents with CP. The standard regime (stretching through immobilisation) includes a dynamic AFO (ankle-foot orthosis) used during day and night. The new approach combines stretching through immobilisation and allows for plantarflexor activity due to an innovative construction of the orthotic device. This prospective randomized controlled study will recruit 20 ambulant children and adolescents (aged 5 to 15 years) with cerebral palsy and equinus deformity (GMFCS = Gross Motor Function Classification System level I to III). Each child will be randomized and stratified according to age and GMFCS to one of two groups. The first group receives the standard treatment (stretching through immobilization) using custom-made ankle foot orthosis for 23 hours per day. The other group will be treated with the same orthosis at night (8 hours) and for 6 hours during the day but the remaining 10 hours will be treated with the foot shell only that corrects subtalar and Chopart joints but does not block the ankle joint movement, so that more activity of plantarflexors will be possible during the day. The intervention will last for 12 weeks. Each child will be examined at four occasions (8 weeks before intervention = control phase, at the beginning of the intervention and then 8 and 12 weeks later). The main outcome measure is the fascicle length measured using a 3D ultrasound (3DUS) imaging technique. Further parameters of interest span across the whole levels of ICF including clinical examinations, biomechanics of gait, muscle morphologic and mechanic properties and participations questionnaires.
Cerebral palsy(CP) consisted of a group of developmental disability in the field of motor function and is one of the major problems of pediatric neurology and at the present time there is no standard curative medical or surgical treatment for it .Stem cell therapy is one of a new and hopeful therapeutic methods of therapy for CP .This double blind study designed for the evaluation of safety and therapeutic effects of intrathecal hematopoietic and mesenchymal stem cells derived from allogenic umbilical cord in change and probable improvement of developmental functions of spastic CP participants between 4-14 years old and comparing with control group of CP participants without cell therapy . 108 cases recruited and randomly divided to 3 groups of 36 cases : hematopoietic stem cells derived from allogenic umbilical cord , Mesenchymal cells derived from allogenic umbilical cord and control group without injection and appearance simulating lumbar puncture without awareness of the patients and evaluators . Developmental functions and spasticity evaluated before intervention and will be done 1 , 3 , 6 and 12 months after injection . During this period neuro rehabilitation will be continued . Brain neuroimaging were done at the recruitment time and will be repeated after 12 months .
The aim of the 6-month randomized controlled trial, with 6-month no treatment follow-up, is to examine the effects of low-magnitude vibration on muscle, physical activity, and balance in children with spastic cerebral palsy.