View clinical trials related to Cerebral Palsy.
Filter by:Rehab in a Crate is a therapy gym designed to be affordable, compact and easily transportable. The purpose of this particular study is to gain feedback on the initial design of the Rehab in a Crate system. This will be accomplished by using qualitative ethnographic research methods (i.e. human centered design) in the form of surveys that have been carefully designed by members of the research team. The eligibility criteria of this survey research reflects the intended user base of an eventual finished product, which is survivors of stroke and cerebral palsy across the globe. And while healthcare professionals are not the user base per se, their expertise and feedback should be instrumental in the design of future iterations of the Rehab in a Crate. Ease of use, utility, design, and various features, both existing and intended, will all be surveyed items.
This research will lead to the first evaluation of intrinsic and dynamic joint and muscle mechanics of equinus in cerebral palsy. It would provide a direct cause and effect relationship between equinus and bone deformity. Mechanical insights to the pathophysiology of the targeted muscles will lead to better understanding and, thus, to a better medical and surgical management of equinus deformity. Secondary aim will provide an important insight whether key gait parameters can be exclusively relied upon for surgical treatment planning and evaluation. In a medium-term perspective, depending upon the results of this study, dynamic MRI of the ankle joint may serve as a guiding tool for fixed equinus surgery in case of cerebral palsy.
The study aims to develop a SmarToyGym where sensitized, wireless toys are strategically hung and placed within reach of infants to elicit toy-oriented body and arm/hand movements. Each toy will be equipped with sensors capable of measuring the infant's grasping actions such as squeezing, pinching, tilting, etc. A low-cost 3D motion capture system will be used to collect video data and the infants' reaching and body kinematics in response to the toys. A pressure mat will be used to measure postural changes to detect weight shifts, rolling, crawling and other movements away from the initial posture. By capitalizing on these wireless and low-cost technologies, it will permit the regular and non-invasive monitoring of infants, which can lead to detailed, non-obtrusive, quantitative evaluation of motor development. In this vein, the investigators also aim to conduct proof-of-concept testing of the SmarToyGym with atypical and typical developing infants. The investigators will include infants' ages 3 to 11 months who are categorized as high-risk or low-risk using the Bayley Infant Neurodevelopmental Screener.
The aims of the present study is to evaluate the effectiveness of Kinect-based upper limb motor rehabilitation system (ULMTS) program on motor performance and functional outcomes.
This 3-year research project aims to investigate and compare the immediate and long-term treatment effectiveness as well as motor improving curve and potential predictors of the unimanual intensive training and bimanual intensive training protocols with an equivalent intervention period in children with hemiplegic CP and children with CP with apparently one side affected. In addition, based on the ICF-CY model, comprehensive outcome measures including motor functions as well as psychological functions will be included.
The purpose of the present study is to develop a long term cost-effectiveness (efficient protocol, playful context, and practical strategy) training program for school-age children with Cerebral Palsy. Also, evaluate efficacy of Kinect-assisted bilateral arm training program for children with Cerebral Palsy.
The study is a transversal, observational, descriptive survey of the practices and opinions of health professionals carried out nationally across France that aims to characterize children with cerebral palsy and pathological drooling and to describe care pathways, assessment and treatment of drooling.
This study is being performed to assess how certain chronic disabilities - stroke, upper extremity (UE) amputation, spinal cord injuries (SCI), cerebral palsy (CP) - differ from healthy subjects in their ability to perform ADLs. By studying the kinematics of the respective cohort of study participants as they are assessed performing common activities of daily living (ADLS), the investigators research team aims to better understand how impaired neural pathways, and pathways that have been impaired at various points along the pathway, deleteriously affect ADLs in patients with differing long-term disabilities.
The nutritional status of CP children may be decreased when children have chewing disorders too due to insufficient solid food intake. The objective of this study was to investigate growth, dietary intakes and feeding behaviours of children with CP who have chewing disorders, and to compare them with their healthy peers.
Cerebral palsy (CP) has a prevalence of 1.5-3 per 1000 live births, making it the most common neurological disorder among children in Europe. One of the most frequently observed problems in CP is hypertonia, i.e. increased muscle tension, which can result in contractures. Stretching therapies are widely used as a treatment for contractures, but with highly variable success. Therefore, efforts are needed to improve the efficacy of stretching interventions. The investigators hypothesise that increasing the stiffness of the tendon relative to the muscle, by resistance training, prior to stretching will improve the efficacy of stretching interventions in children with CP. In a RCT design the investigators will compare a group of children receiving a combined strengthening-stretching intervention of the calf muscle to a control group receiving conventional stretching exercises in combination with upper limb exercises. Outcome measures will include muscle-tendon structure and gait analysis to assess functional improvements. This research will improve the understanding of muscle responses to stretching interventions in children with CP and can lead to more effective stretching therapies.