Active clinical trials for "Cerebral Palsy"

This study aims to assess the feasibility of a visual feedback system designed to augment treadmill-based gait training for children with gait disturbances related to hemiplegic cerebral palsy. The visual feedback uses data from knee and hip joint movements to represent the position of the foot ahead of or behind the body during walking. This study will test eight children with hemiplegic cerebral palsy who have short step lengths related to atypical knee and hip motions when the foot contacts the ground (initial contact). The study will examine walking adaptations in response to the new visual feedback system and compare differences in response and user experience between two variants of the new design. In a single visit, participants will undergo a gait retraining protocol using the dual joint visual feedback (DJVF) system. Hip and knee flexion angles of the paretic (weaker) side will be collected, analyzed, and compared during baseline walking and while responding to the two feedback variants. Muscle firing patterns will be studied using electrodes placed on key lower limb muscles. Study participants will be asked to report their experience and preferences following the gait retraining protocol. The study findings will be used to further refine the DJVF system in preparation for future studies.

Until now, for children with cerebral palsy (CP) , diagnostic and some prognostic predictive machine learning studies have been conducted, but prognostic studies targeted specific milestone according to specific gross motor function measure (GMFCS) levels; such as walking and running predictors at GMFCS II and III and GMFCS II respectively, and not covered specific types of cerebral palsy. Predictions studies were limited by the lack of specificity of child and family characteristics was not taken into the account prospectively. It is therefore the utmost need to support clinical decision making by predicting the recovery in spastic cerebral palsy. Recovery predictive factors can play an important role for this purpose. Thus, this study aims to predict the recovery in spastic cerebral palsy according to all GMFCS level by means of a prediction index/model.

Prospective, open-label, non-randomized, single-arm, dose titration, phase II study. The study will consist of three injection cycles. In each, an injection visit is followed by an observation period of 12 to 20 weeks. During cycle 1, a total body dose of 16U/kg (maximum 400U) of IncobotulinumtoxinA will be injected into the spastic muscles of the affected limbs. During cycle 2, a total body dose of 19U/kg (maximum 475U) of IncobotulinumtoxinA will be injected into the spastic muscles of the affected limbs. If a dose of 19U/kg is not justified (i.e., for clinical or safety reasons) but BoNT-A treatment is still needed (according to the clinical condition of patients) the same dose injected in cycle 1 (16U/Kg; maximum 400U) may be administered in the cycle 2. During cycle 3, a total body dose of 22U/kg (maximum 550U) of IncobotulinumtoxinA will be injected into the spastic muscles of the affected limbs. If a dose of 22U/kg is not justified (i.e., for clinical or safety reasons) but BoNT-A treatment is still needed (according to the clinical condition of patients) the same dose injected in cycle 2 (19U/Kg; maximum 475U) may be administered in the cycle 3.

The goal of this pilot clinical trial is to learn about the implementation of Therapy Together, a pediatric constraint-induced movement therapy program in young children with unilateral cerebral palsy. The main question[s] it aims to answer are: Is the Therapy Together program effective in improving hand function and occupational performance compared to usual care? Is it feasible to implement the Therapy Together program within the standard care, early intervention framework? Participants will participate in an 8-week pediatric constraint-induced movement therapy program. Researchers will compare the group completing the Therapy Together Program to a group that is receiving usual care to see if there is a difference in the change in hand function, occupational performance, and development.

The primary objective of the proposed study is to evaluate the safety of ExAblate Transcranial MRgFUS as a tool for creating bilateral or unilateral lesions in the globus pallidus (GPi) in patients with treatment-refractory secondary dystonia due to dyskinetic cerebral palsy

The goal of this clinical trial is to learn about the acceptability and efficacy of Go Move, a mobile website developed to assist youth with unilateral cerebral palsy and their caregivers with setting goals and selecting exercises and activities to meet the goals. The main question[s] it aims to answer are: Is Go Move accepted by youth with unilateral cerebral palsy and their caregivers? Does Go Move support goal attainment for youth with unilateral cerebral palsy? Participants will set up and participate in a goal-driven home program using the Go Move mobile website. Participants will spend 1 hour and 15 minutes per week for 6 weeks working on their home program and will complete pre-intervention and post-intervention assessments.

The goal of this clinical trial is to learn about how a participation-based intervention builds capacity of youth with physical disabilities to pursue activities of their choice in the community. The investigators plan to examine in what ways working with a therapist to set up and engage in an 8-week self-chosen community-based activity builds capacity of youth with physical disabilities to pursue a new activity of their choice in the community without the support of a therapist. During this study, participants will be followed for 26 weeks. Youth will work with an occupational therapist (OT). In the first week, the OT will meet with youth to set a community-based leisure goal. Examples of activities could include music, sports, cooking lessons, painting, or photography, in the youth's community. The OT will work with youth to identify and remove barriers. They will also adapt the activity to help youth do the activity for 8 weeks. During this time, the OT will perform site visits to consult and support youths' involvement as needed. (Weeks #1-8) Youth will have a four-week break after completing their first activity. (Weeks #9-12). Then, youth will be asked to choose a second (new) activity. They will try to start this activity for 8 weeks without the OT. (Weeks #13-20) At the end of these 8 weeks, the same therapist will help the youth for 6 weeks if needed to do their second activity. (Weeks #21-26) Youth will be asked to complete the following online: A standard demographic questionnaire (during the first meeting). Rate their perceived performance in the chosen activity once a week. A questionnaire about their daily participation in the community. This will be done at the start and end of the study. A questionnaire about how well they feel they are able to do things. This will be done three times. Share steps they take to participate in the activity. This will be done through a weekly diary entry. In addition, three one-on-one interviews (for about an hour each) will be done remotely (using Microsoft TEAMS) to share their experience pursuing their selected activities. Interviews will be done before starting their second (new) activity, after 8 weeks of pursuing the new activity on their own, and after 6 weeks with OT support. These interviews will be video, and audio recorded and transcribed. This study examines 'real-life' experiences and participation outcomes of youth with physical disabilities after a participation-based capacity-building intervention.

Spasticity is one of the most common features in children with cerebral palsy (CP) and is evident in the majority of CP types such as hemiplegia, diplegia, quadriplegia, etc. Children with spastic upper motor neuron lesions often experience difficulties with muscle tone and movement, impacting their functional abilities and quality of life. Conventional treatments such as physical therapy and medication have demonstrated positive effects in the management of spasticity. However, alternative interventions like whole body vibration (WBV) have gained attention due to their potential to modulate muscle tone and improve functional outcomes. WBV involves the transmission of mechanical vibrations to the whole body or specific body parts. These vibrations stimulate sensory receptors and elicit muscular responses, potentially leading to improved muscle tone regulation and reduced spasticity.

Cerebral palsy (CP) is a motor disorder caused by an injury to the immature brain. Even though the brain damage does not change, children with CP will have progressively weaker, shorter and stiffer muscles that will lead to contractures, bony deformations, difficulty to walk and impaired manual ability. An acquired brain injury (ABI) later during childhood, such as after a stroke or an injury, will result in similar muscle changes, and will therefore also be included in this study. For simplicity, these participants will in this text be referred to as having CP. The mechanism for the muscle changes is still unknown. Contractures and the risk for the hips to even dislocate is now treated by tendon lengthening, muscle release and bony surgery. During these surgeries muscle biopsies, tendon biopsies and blood samples will be taken and compared with samples from typically developed (TD) children being operated for fractures, knee injuries, and deformities. The specimens will be explored regarding inflammatory markers, signaling for muscle growth, signaling for connective tissue growth and muscle and tendon pathology. In blood samples, plasma and serum, e.g. pro-inflammatory cytokines and the cytoprotective polypeptide humanin will measured, and will be correlated to the amount humanin found in muscle. With this compound information the mechanism of contracture formation may be found, and hopefully give ideas for treatment that will protect muscle and joint health, including prevention of hip dislocation and general health. The results will be correlated to the degree of contracture of the joint and the severity of the CP (GMFCS I-V, MACS I-V). By comparing muscle biopsies from the upper limb with muscle biopsies from the lower limb, muscles that are used in more or less automated gait will be compared to muscles in the upper limb that are used more voluntarily and irregularly. Muscles that flex a joint, often contracted, will be compared with extensor muscles from the same patient. Fascia, aponeurosis and tendon will also be sampled when easily attainable.

To examine if adding plyometric exercises to sensorimotor exercises would improve respiratory function in children and adolescents with cerebral palsy