View clinical trials related to Cerebral Palsy.
Filter by:The main objective: To determine the effectiveness of a treatment that combines the application of a functional upper limb orthosis together with a home-based program of specific tasks in children with unilateral cerebral palsy versus a home-based program of specific tasks in improving structure and function, activity and participation. Hypothesis: The application of a functional upper limb orthosis together with a home-based program of specific tasks in children with unilateral cerebral palsy results in a greater improvement in structure and function, activity and participation compared to the implementation of a home-based specific task program.
The primary aim of this study is assessing physical activity, the quality of sleep and health related quality of life in children with cerebral palsy, and parenting stress of caregivers of the children with cerebral palsy in Korea.
Children with cerebral palsy (CP) have life-long motor disorders caused by brain injuries which occur around birth. These children go through extensive treatment during childhood, but the treatment has generally been started late due to late diagnosis (median age 15 months). New recommendations state that the clinical diagnosis "high risk of CP" should be given before 6 months corrected age, in order to be able to intervene as early as possible, and have the best possibilities to prevent or limit the adverse neurodevelopmental consequences of brain injuries occurring around birth. Thus, there is a great need to develop evidence-based early interventions for children at high risk of developing cerebral palsy. The Small Step program is developed at Karolinska Institutet (KI) in Stockholm, Sweden and is based upon theories of brain plasticity induced by early learning. The efficacy of the program is presently being investigated at KI. Preliminary results indicate a large individual variation in response to the program among the participating children. The aim of the present study is therefore to explore individual responses to the Small Step Program in infants at risk of developing cerebral palsy. The main hypothesis is that infant characteristics, such as severity of brain pathology, are associated with differential response to the program. Also, infants with absent fidgety movements and children with sporadic fidgety movements are believed to respond differently to the program.
A randomized, controlled, and evaluator-blinded trail will be carried out comparing CIMT with or without AOT on sensorimotor outcome in children with unilateral CP aged 5 to 12 years. Additionally the potential role of neurological factors, including the anatomical characterization of the brain lesion, structural/functional connectivity and cortical reorganization, on treatment response will be investigated.
The study is planned to determine the relationship between chewing performance level and gross motor function, and trunk postural control in cerebral palsy (CP).
Cerebral Palsy (CP), due to pre-perinatal brain lesions, is a main cause of childhood disabilities with high cost for individuals and society. Early Intervention (EI), if intensive enough but affordable by patients, family and health services can improve its outcome. A recent Cochrane review indicates the positive effects of Infant Massage (IM) in gross and fine motor skills, visual development and parent infants interaction in preterm infants. Recently, a new technological tool, called CareToy has been developed as a tele-rehabilitation tool for delivering at home EI. The effects of CT training on neurodevelopmental outcome have been recently tested in a sample of low-risk preterm infants with very promising results. The aim of the project is to provide evidence, by a RCT, of the efficacy of CareToy (CT) training versus Infant Massage, in a sample of 45 infants aged 3-12 months (or with motor competencies from initial head control to unstable sitting position) at high risk for CP according to strict clinical and neuroradiological signs. Enrolled infants will be randomized in 2 groups: CareToy and Infant Massage. Infants allocated in CT group will perform a training with CT while the others will perform infant massage. Both trainings will be carried out at home by parents with the monitoring of the therapists. Both interventions will last 8 weeks. All enrolled infants will be evaluated at baseline (T0),9 wks after the CT/IM (T1), 9 wks after T1 (T2) and at 18 months of post term age (T3). Infant Motor Profile will be the primary outcome measure.
Clinical guidelines recommend the use of Botulinum Toxin-A (BoNT-A) for localized/segmental spasticity in children with cerebral palsy. At the Kocaeli University (KOU) Department of Physical Medicine and Rehabilitation (PMR) more than 800 patients have been injected with the two approved toxinA types; OnabotulinumtoxinA or AbobotulinumtoxinA. With this study investigators would like to evaluate retrospectively if switching from one toxin to another is safe as well as to evaluate if the efficacy when switching from one toxin to another was maintained.
The study seeks to determine the efficacy of non-nutritive suck (NNS) training using a pacifier-activated device (PAM) with mothers' voice to condition suck-strength and rhythmicity, in improving the feeding and developmental outcomes of infants at high-risk for CP.
This research study will see if electrical stimulation increases heel strike (heel hits the floor first when walking), decreases limp, helps muscle contraction, and improves balance in children with a hemiplegic leg. An experimental electrical stimulation device called the Gait MyoElectric Stimulator (GMES) will be used to stimulate the shin and calf muscles.
In this study the clinical relevance of the use of commercially available virtual reality games in the rehabilitation of balance will be assessed in children with cerebral palsy. It will be investigated how different commercially available platforms (i.e. Xbox One + Kinect and Nintendo Wii + balance board) will affect the compensations of children with cerebral palsy to preserve their balance. The effect of 1 training session will be assessed as well as the effect of a long-term training of 8 weeks.