View clinical trials related to Cerebral Palsy.
Filter by:The purpose of this study is to investigate lower limb impairments in children with bilateral cerebral palsy during stepping tasks.
UDI-001 is administered to pediatric patients with cerebral palsy attributed to periventricular leukomalacia (PVL) multiple times to investigate its safety and efficacy.
A double-blind randomized controlled study was carried out on 34 children (19 boys and 15 girls) in the age ranged from 7 to 9 years old with spastic hemiplegia were randomly allocated to one of two groups: control or study group. The two groups received traditional therapeutic exercises for 12 weeks. Additionally, study group received rESW (one session/week) on gastrocnemius and soleus muscles (1500 shots/muscle, frequency of 4Hz, energy of 0.030 mJ/mm2). All children were evaluated at baseline, and after 12 weeks by Modified Ashworth Scale, Biodex system 4 isokinetic dynamometer, Gross Motor Function Measure (GMFM-88), dimensions "D" standing and "E" walking, Trost Selective Motor Control Test, and Single Leg Standing Test.
Phase 2/3, randomized, double-blind, placebo-controlled, single-treatment, multicenter trial assessing the efficacy and safety of MYOBLOC for the treatment of upper limb spasticity in adults followed by an open-label extension safety trial.
Cerebral palsy (CP) is the most common motor disability in childhood. Among these, hip luxation represents the most frequent and clinically relevant one, affecting 72% of non-ambulatory CP children. Reconstructive surgical treatment is debated in severe CP children, for whom it is crucial to identify an effective preventive approach. The aim of our study is to verify if keeping a sitting position centering femoral heads is more effective than usual postural management (sitting with the trunk aligned and hips abducted), in preventing hip luxation in quadriplegic CP children. It's a multicenter randomized controlled study (13 sites involved). A total of 102 quadriplegic CP children, aged 1-6 years-old, classified as Gross Motor Function Measure System 4 or 5, will be recruited and randomized to usual or experimental sitting, at least 5 hours a day, for 2 years. The primary outcome will be the degree of luxation, measured by means of the Migration Percentage (MP), on pelvic radiography, at 12 and 24 months. Secondary outcomes will include compliance and Health Related-Quality of Life, using validated tools, hip pain, device cost, MRI lesions, concurrent direct neuromotor treatment, use of standing devices and spasticity treatments (botulinum toxin, per os or intrathecal baclofen, selective dorsal rhizotomy). Experimental sitting is expected to reduce the MP change compared to usual care. It will be of interest to compare compliance, QoL and costs in either groups: aspects affecting the effectiveness. Furthermore to evaluate correlations between MP and spasticity treatments, MRI lesion type, and other clinical features.
To assess the impact of a 12-week virtual seated physical intervention on cardiovascular health and wellness in people with chronic neurological impairments (CNI).
The Occupational Therapy Department at Boston Children's Hospital is teaming up with MGH Institute of Health Professions to explore the benefits of using robot assisted therapy (Amadeo) and a problem solving approach (Active Learning Program for Stroke) to achieving functional goals for children ages 7-17 years old that have hemiparesis. The hope is to help participants make gains in both hand/arm skills and progress in everyday activities such as self-care, play, school and work. Participation will look like regular therapy with sessions 3 times weekly for 8 weeks. Each visit will include time for games on the Amadeo and time spent problem solving current activity challenges for each child. Families are encouraged to participate.
Youth with physical disabilities experience greater limitations to participation in community- based activities than do their average-developing peers, which can result in poor health outcomes. Emerging treatment approaches aimed at improving activity and participation have shifted from focusing only on impaired body functions towards the performance of functionally meaningful activities within the youth's natural environment. It is unclear; however, whether targeting intervention at the activity/participation level can simultaneously result in improvement of personal functional skills (e.g., reaching) and body functions (e.g., range of motion, balance) - components known to worsen with age and, thus, important to address and maintain within the rehabilitation process. Our team has partnered with key community-based stakeholders including youth, clinicians and policy-makers, and together we plan to examine whether engaging in an 8-week self-chosen community-based activity (e.g., sledge hockey, boccia) can lead to a significant improvement in three key body functions: motor, cognitive and affective. Thirty youth with physical disabilities will take part in the study and engage in an activity program of their choice. Changes in their body functions (e.g., movement, attention, mood) will be measured multiple times before, during and after engagement in the chosen activity/program. Findings of this study can guide clinicians, families and policy-makers to select effective approaches that not only promote participation but also facilitate additional motor and mental benefits from one single intervention. Such treatment approaches may also reduce the burden on the healthcare system as well as on the youth and families. Moreover, findings can advance our understanding of methods for testing complex and unique 'real-life' individual-based interventions that are highly relevant to practice.
Cerebral Palsy (CP) is the most common motor dysfunction in childhood. Traditionally, diagnosis is set between 12 and 24 months of age. This study will evaluate feasibility of a new screening procedure for early detection of CP in high-risk infants and investigate how such a procedure can be implemented in the Central Norwegian Regional Health Authority (CNRHA). The most accurate method to detect and predict CP at an early age is the General Movement Assessment (GMA). GMA is based upon expert observations of infant spontaneous movements in a video. In Central-Norway such expertise is today only present at St. Olavs Hospital, Trondheim University Hospital. Video recordings by health personnel and parents will be used in follow-up programs within CNRHA for remote expert based GMA. In addition, machine learning models will be applied for automatic detection of CP. Early identification of CP will lead to improved function and increased possibility to direct health care resources to the patients who need it most, independent of geographical and expert based constraints.
The study will be conducted to assess the efficacy of mirror therapy on balance in children with hemiplegic cerebral palsy.