View clinical trials related to Cerebral Palsy, Spastic.
Filter by:This study aims to: - Investigate the effect of motor imagery training on gait kinematics in children with spastic hemiplegia. - Determine the effect of motor imagery training on balance in children with spastic hemiplegia. - Assess the effect of motor imagery training on trunk endurance in children with spastic hemiplegia.
Purpose of the study: To investigate the effect of walking back exercises and rebound therapy on muscle strength, functionality, balance and aerobic capacity in children with CP Implication for rehabilitation:Determining the effects of rehabilitative interventions (back and forth walking exercises and rebound therapy) to be applied in children with CP with objective measurement methods (muscle US, tetrax balance system) and evaluating the effects of the results on functionality and respiratory parameters
Comparing the efficacy of Intracthecal Baclofen dose between the Prometra II and Medtronic SynchroMed II for patients with spasticity and with current a current SyncroMed II pump needing replacement.
The aim of the study is to investigate the impact of individualized multisite neuro-orthopedic surgery of the upper limb in children with Cerebral Palsy on unilateral functional capacities and bimanual performance. The investigators also assessed the attainment of individualized goals and tracked any potential factors that may have an impact on final results.
This game-like intervention using virtual reality will provide an objective and quantitative characterization of dystonia and spasticity presentations in cerebral palsy, even if combined, through the process of motor learning. This intervention could have a therapeutic benefit in the rehabilitation of children with cerebral palsy.
In children with cerebral palsy, secondary problems lead to hip dislocation and scoliosis. But There is no definite evidence for the dislocation of hip and scoliosis. The investigators want to verify evidence of scoliosis and dislocation of hip.
This study aims to evaluate Pediatric Balance Scale and quantitative balance and gait parameters assessed by Balance Master force plate in Cerebral Palsy (CP) patients who are ambulatory without an assistive device in daily life.
The aim of this study is to investigate if ankle-foot orthoses affect changes in muscle activity of children with spastic unilateral cerebral palsy during walking. To minimize investigator variability, the same orthotist CO, clinical gait analyst GA and physiotherapist PT will perform their designated functions for all participants. Each subject will be required to attend three appointments. First appointment: CO takes a lower leg cast of the involved side; the cast is taken with the ankle and hindfoot corrected to neutral position. Second appointment: CO fits the tone-reducing ankle-foot orthosis which entails trimming the device to fit footwear, checking the orthotic device restricts plantarflexion and ensuring comfortable and functional fit. The device is modified with holes for electrode placement at locations for tibialis anterior and gastrocnemius identified by PT. The child receives the tone-reducing ankle-foot orthosis and is instructed to use this orthotic device on a daily basis for the next four weeks to grow accustomed to the tone-reducing stimuli which may require some acclimatization. Third appointment: A clinical examination is conducted by PT. Surface gel electrodes are then attached while the participant is instructed in individual muscle activation tests; SENIAM guidelines will be followed for electrode placement and skin preparation, aside from hamstrings and rectus femoris which will follow amended instructions in line with the scientific literature. GA quality checks the raw electromyography (EMG) signals by visual inspection during the isolated muscle activation tests and during a dynamic trial for movement artefacts, cross-talk, baseline drift and good noise-to-signal ratio. Reflective markers are then applied in accordance with Plug-in Gait lower body model by PT to collect kinematic and kinetic data. A resting trial is collected to establish the baseline activity level for each muscle. The participant is instructed to walk at a self-selected speed along the walkway. Dynamic trials continue until two clean strikes to the middle force plate are collected for the involved leg. Barefoot data is collected first while any additional modifications necessary for electrode placement are made to the ankle-foot orthoses. The order of the orthotic conditions is randomized. Data will be recorded confidentially using reference codes for participants and stored on a secure server with designated space allocated by the hospital.
Selektive dorsal rhizotomy (SDR) has been used as treatment option in children suffering from cerebral palsy (CP) for several decades and multiple studies demonstrated its benefits. Nevertheless, there are still no proven strategies for patient selection, optimal point of time for the operation or pre- and postoperative therapies. The evaluation of the impact of selective motor control, cognition and cerebral imaging findings on the motor outcome and life quality in children with CP who underwent SDR at the Charité University clinics will clarify these critical points in daily care for patients with CP.