View clinical trials related to Cerebral Palsy.
Filter by:The main purpose of this study is to estimate change in motor function 12 months after treatment with a single dose of allogeneic umbilical cord blood (AlloCB) or repeated doses of umbilical cord tissue-derived mesenchymal stromal cells (hCT-MSC) in children with cerebral palsy. In addition, this study will contribute much needed data to the clinical trials community on the natural history of the motor function in CP over short-term (less than 1 year) time periods relevant to the conduct of clinical trials and assess the safety of AlloCB and hCT-MSC infusion in children with cerebral palsy.
Pronation deformity is a very common problem in children with cerebral palsy. This deformity is usually has neural and non-neural aspects. In this clinical trial the aim is to show the importance of combine treatment approach with pharmacological and non-pharmacological modalities. .
always reliable.Pain is an important diagnostic tool in dentistry. The type of treatment, extent of treatment and, sometimes, even the decision on whether to treat or not is dependent on the pain history obtained from the patient.The absence of an accurate description of dental pain is a factor that severely limits dental treatment planning in children with CP. The aim of this study is to study to evaluate the salivary cytokine profile of children with CP who have severe dental problems and to compare this to verbal children who have a similar dental profile.
This study aims to evaluate the efficacy of single event multi level chemoneurolysis with the abobotulinumtoxin A drug, Dysport®, on walking energy expenditure and gait in children with spastic diplegia cerebral palsy.
The aim of the study is to describe pain coping strategies and their evolution in children and adolescent with cerebral palsy.
People with central nervous system disorders such as spinal cord injury, stroke, cerebral palsy, Parkinson's disease, multiple sclerosis, etc… often have impaired lower extremity function that limits activities of daily life and independence. Different body-weight support systems have been developed to facilitate the rehabilitation process by compensating for the user's residual abilities. However, studies on weight-supported gait training on a treadmill have failed to show superiority over conventional rehabilitation programs for spinal cord injury and stroke. A recent study by the group around Grégoire Courtine showed that body-weight support systems that provide assistance only in the vertical direction disrupt the production of gait and balance, suggesting that current practices may even be detrimental for relearning to walk. For the past year, the Clinique Romande de Réadaptation (CRR) worked together with the G-Lab at EPFL and G-Therapeutics on a new robot platform specifically developed to provide adjustable trunk support along four independent degrees of freedom (LEAP). The investigators were able to draw on their long-term experience, which consists of different body weight support training systems for stroke and spinal cord injury. This knowledge, combined with the input of our therapists and physicians and the specific requirements for people with neurological/musculoskeletal disorders, has resulted in a design that can provide adjustable bodyweight support during over-ground locomotion, treadmill, stairs training, standing up and sitting down and for support during the training of activities of daily living. The scope of this study is to examine how well the robot can be used for rehabilitation therapy in everyday clinical practice. This includes, among other things, technical aspects such as the handling of the hardware, the adaptability of the robot to the patient, and the safety during operation (such as the fall prevention). Various patient-specific aspects will also be evaluated e.g. comfort, positioning, or motivation of the patient. This study also aims to evaluate the software with the various support modes, operating options, and the user interface of the LEAP.
The aim of the study is to observe the effects of Intensive Neurophysiological Rehabilitation System on hand function in children with spastic cerebral palsy.
Research on the effects of physiotherapeutic interventions in children with CP has grown expansively, and shows a wide diversity of techniques and concepts that are used in variable intensity. Until now there is no consensus on the optimal intensity of these interventions to have a positive impact on the activity and participation level of these children. A recent systematic review and meta-analysis already showed evidence for the effect of intensive training of hand function in children with CP, including short bursts of highly intensive therapy. In contrast, studies on the effect of intensive therapy of gross motor function were limited, and training was performed at a lower intensity during a longer period, resulting in effects that are more inconclusive. Moreover, none of the reviewed studies included improvement of trunk control as one of their treatment goals, although it is known that most children with CP experience some problems with trunk control, to a variable extent. This research project has two aims, i.e. 1) investigating the effect of intensive therapy camps on qualitative and quantitative parameters of lower limbs and trunk; and 2) comparing the effect of two therapeutic approaches, namely a functional approach versus a more qualitative-functional approach on these parameters.
Excessive anteversion is commonly observed in the cerebral palsy (CP) population. This can be treated by an orthopedic surgery, called femoral derotation osteotomy (FDO), to de-rotate the femur. It is a vital aspect of patient care to understand if the effects of an FDO are maintained long-term. The results of this study will have direct clinical impact by equipping providers with the necessary information to counsel families by providing families the information needed to make the most informed decision possible about this aspect of their child's healthcare.
Children with spastic cerebral palsy (CP) often walk with insufficient ankle dorsiflexion in the swing phase. A pathological gait, known as drop-foot gait, can be the result and this has 2 major complications: foot-slap during loading response and toe-drag during swing. This is partly caused by weakness of the anterior tibial muscle and partly due to co-contraction of both the fibular- and anterior tibial muscle. For classification of gait, the Winters scale can be used, where unilateral CP with dropfoot is classified as type I. In daily life these problems cause limited walking distance and frequent falls, leading to restrictions in participating in daily life. The current guideline for spastic cerebral palsy describes the following therapies: 1) conservative therapy (physiotherapy, orthopaedic shoes and orthoses) 2) drugs suppressing spasticity 3) surgical interventions. Functional electrical stimulation (FES) may be an effective alternative treatment for children with spastic CP and a drop foot. By stimulating the fibular nerve or the anterior tibial muscle directly during the swing phase, dorsiflexion of the foot is stimulated. In contrast to bracing, FES does not restrict motion, but does produce muscle contraction, and thus has the potential to increase strength and motor control through repetitive neural stimulation over time. In a systematic review the investigators found that FES immediately improves ankle dorsal flexion and reduces falls and these effects also sustain. However, it should be noted that the level of evidence is limited. Until now, the use of FES in CP is limited and no data exist about the effects on walking distance (activity level) and participation level. The overall objective of this study is to conduct a randomised cross-over intervention trial in children with unilateral spastic CP with 12 weeks of FES (for every participant) and 18 weeks of conventional therapy. The effectiveness of FES will be examined at participation leven, using individual goal attainment. Next to that the effect at gait will be measured. An additional goal is to investigate the cost effectiveness of FES, which, in case of a positive effect, may support allowance by insurance companies.