View clinical trials related to Cerebral Palsy.
Filter by:Children with cerebral palsy (CP) have postural control problems due to the lack of motor and sensory development. Trunk control which has an important role in ensuring postural control, is the basis for sitting, mobility, development of the upper extremity, pulmonary function and activities of daily living. Poor postural control restricts upper extremity functions which also affects the quality of movements. For this reason, it is important to assess the relationship between trunk control and upper extremity functions. This study is planned to investigate the effect of balance and trunk control on upper extremity functions in children with CP.
This is a randomized controlled trial comparing 3 months of intensive leg exercise to standard physiotherapy care for the improvement of motor function in the legs in young children with spastic diplegia.
The methodology is a feasibility study to determine the feasibility of assessing people in the community with a neurological condition before proceeding towards a full powered community trial evaluating the influence of intrathecal baclofen.
In children requiring botulinum toxin injections, improving supervisory procedures of injection sessions to reduce pain and improve the experience of this invasive procedure is needed. The intervention of medical clowns seems very interesting in this goal, but its effectiveness has not been proven within the botulinum toxin injections. The objective of the study is to evaluate in terms of profit the presence or absence of clowns during a session of botulinum toxins by determining their impact on pain and anxiety felt among children and their carers
The study aims to evaluate the safety and the feasibility of transcranial Direct Current Stimulation (tDCS) session in children and young adults with Unilateral Cerebral Palsy (UCP). Secondarily it aims to test the effects of tDCS (real vs sham) in improving, in very short term, Upper Limb (UL) functions.
Lite Run is a new assistive device that may have FDA listing as a Class I device by mid 2017 based on clinical testing of adults, independent agency testing and in-house evaluations. This will be a combined study with multiple purposes with respect to the evaluation of its use with the post-operative pediatric population. A first purpose is to verify safety and feasibility of the device on pediatric patients. A second purpose is to statistically test the effectiveness of Lite Run to decrease physical burden on the therapist during post-operative gait training for children and adolescents with cerebral palsy as compared to current methods of body weight-supported gait training. A third purpose is to measure and qualitatively evaluate the effectiveness of the device on patient outcomes and improving patient and therapist satisfaction.
In our prior study on the therapeutic mechanism of UCB, changes in cytokine levels were observed but the results are inconclusive and further studies on animal models and changes of protein expression before and after UCB therapy in the clinical settings are required. The changes in protein expression will be assessed by multiplex RT-PCR mRNA assay. Clinical efficacy of UCB therapy will be evaluated with various functional assessment tools. Factors regarding UCB therapy (number of transplanted cells, HLA matching status, serum level of immunosuppressant, etc.) and patient factors (age, functional status, etc.) will be analyzed for correlation with protein expression after UCB therapy. Several target proteins for analysis are available. Pentraxin and toll-like receptor (TLR) 4 are receptors modulating intrinsic immune reaction and was shown to have a significant correlation with clinical efficacy of stem cell therapy. Ubiquitine is a regulatory protein that combines with the target protein and affects its degradation, interaction, localization and activation. The ubiquitine system controls total protein quantity for homeostasis and can be found in all tissues. Deubiquitination (DUB) enzyme down-regulates this ubiquitine and is known to modulate all cellular changes
The purpose of this study is to evaluate the safety and effectiveness of stem cells for cerebral palsy related to neonatal icterus
The purpose of the study is to assess the effectiveness of an upper extremity prosthesis in improving the upper extremity function of children with cerebral palsy who have limited use of their hands. Twelve children, aged 4-17 years, who have cerebral palsy and limitations in their ability to use their hands, will be enrolled. All participants will be fitted with a 3D printed arm/hand prosthesis and receive 8 occupational therapy sessions. Each subject will be evaluated pre-treatment, post-occupational therapy sessions and at 6 months follow-up. The evaluation will include assessment of (1)passive and active arm/hand movement and (2)functional hand skills using several standardized tests. The results from the pre-treatment and the two post-treatment evaluations will be compared.
This is a pilot study to develop a reinforcement learning (RL)-adaptive visual and interactive support application (hereafter RL-adaptive support) to help young adults with spina bifida or cerebral palsy become more independent with medication management. Individuals with disabilities who are empowered to manage several aspects of their lives can ultimately be better integrated into and contribute more to society.