View clinical trials related to Cerebral Palsy.
Filter by:To study the reactivity of the mu rhythm during action and action-observation by EEG in children with unilateral cerebral injury.
This study will assess the benefits of using mobile health system designed for individuals with chronic and complex health conditions (such as those with Spinal Cord Injury,Cerebral Palsy, Spina Bifida, and Traumatic Brain Injury) to improve their wellness and self-management skills compared to those who receive standard of care only.
Neurological pathologies cause important and permanent disabilities in every day life. These pathologies can follow stoke, affecting two people per one thousand each year or cerebral palsy, affecting two births per one thousand each year. To date, the diagnosis and the rehabilitation of motor and cognitive problems has been carried out separately by different domains. For example, physiotherapists have focused on motor problems and neuropsychologists have focused on cognitive functions. However, a number of studies have demonstrated a link between motor and cognitive abilities in adults and children. The present study has three main aims: (1) to better evaluate motor and cognitive problems in brain damaged patients (all ages), (2) to understand the link between motor and cognitive abilities in patients and healthy participants and, (3) to propose new types of therapies based on the link between motor and cognitive functions.
The purpose of this study is to characterize the cortical connectivity changes in the brain of spastic diplegic children after Selective Dorsal Rhizotomy.
Transcranial magnetic stimulation (TMS) has opened new potential avenues for the treatment of neuropsychiatric diseases via the effects of modulation on neuroplasticity. Repetitive TMS (rTMS) is a non-invasive method of stimulation neural pathways in the brain of conscious subjects through the intact scalp. The investigators hypothesize that excitatory rTMS applied over the motor cortex would increase motor cortex activity and result in an increase in the inhibitory input through the corticospinal tract to the spinal cord, thus reducing alpha neuron hyperactivity and consequently clinical spasticity. In this study, the investigators will apply the stimulation on the legs motor cortex area, which can cover supplemental motor area (SMA). Therefore, not only the spasticity, but also the motor control of legs both can be modulated by stimulation. Theta burst stimulation is a condition of rTMS which was designed by the co-investigator. It has controllable, consistent, long-lasting, and powerful effects on motor cortex physiology and behavior. The investigators therefore design this protocol using theta burst stimulation on the motor cortex of the patients of cerebral palsy. The investigators expect that there would be an effect on the reduction of spasticity after rTMS on the brain of children with CP, thus improving the motor control of legs.
The aims of this study are to investigate what effect altering handle height of posterior walkers has on forces through the walker, posture, efficiency, stability, speed, turning and comfort, and to obtain data which helps therapists understand the bio-mechanics involved during use and if this alters depending on age, posture or strength. All participants will have cerebral palsy. This will allow informed prescription of walkers and identify potential for redesign to improve efficiency, promote strengthening or improve posture to maximise children's potential to continue functional walking into adulthood.
The purpose of this study is to investigate how sensory information processing affects balance ability in children with cerebral palsy (CP). An additional goal is to determine if a subsensory electrical stimulation called Stochastic Resonance (SR) Stimulation, can improve balance in children with CP. Children with CP and children with typical development will participate and complete a series of clinical and balance assessments. They will also be tested in a sensor fusion paradigm to investigate potential deficits in the dynamic integration of visual, vestibular and proprioceptive information during upright stance. SR stimulation will then be used to potentially improve these deficits and subsequently their balance ability.
Robot assisted gait training is seen as a promising intervention for improving the walking abilities of children with cerebral palsy, but research to support its effectiveness compared to best practice physical therapy is lacking. This research consists of a randomized controlled trial (RCT) and a qualitative descriptive study that is linked with the RCT. The goal of the RCT is to compare: 1) a walking training program with the Lokomat® robotic device (LOK), 2) a functional physical therapy program (fPT) that includes activities to enhance balance/co-ordination/endurance and advanced motor skills conducted over 'real ground', 3) a combined Lokomat® + functional physical therapy (LOK+fPT) program, and 4) a regular maintenance therapy condition (CONT) for ambulatory children and youth with CP (aged 5- 18 years). The three intervention programs will consist of sixteen 50-minute sessions given twice weekly over 8 to 10 weeks. The primary objective of the RCT is to compare the four groups with respect to walking-related motor skills as measured by the Gross Motor Function Measure. The secondary objectives are to compare each intervention's impact on walking abilities, individualized goals, fitness, balance, physical activity levels, child's belief in ability to do physical activity, participation and quality of life. The investigators will also evaluate the extent of carryover or progress 3 months after the intervention. The qualitative part of the study will consist of interviews of children and parents after they have finished the study intervention. The information from the interviews will assist us with interpretation of the outcome results (areas of impact and amount of change) from the RCT. In particular, the interviews will 1) provide insight into their experiences with the trial interventions, 2) identify the mobility-related outcomes that are important to families and the factors that influence their preferences, and 3) explain the family values, experiences and contextual factors that influenced participation in the study. This research will provide information needed to allow clinicians and families to make informed choices about Lokomat therapy and physical therapy options in relation to their child's functional goals and abilities.
This study aims to determine if participation in a core stability physiotherapy group programme can improve the balance of children with cerebral palsy. It is hypothesised that teaching the children how and when to activate their deep core stabilising muscles may help improve their body awareness and their ability to control their alignment and therefore positively affect their balance. Children with cerebral palsy from the ages of 7 to 17, who can walk independently, will be randomly selected to join either the control group or intervention group, after completion of their baseline balance assessments. Each group will be re-assessed after completion of their 4 week intervention or control period.
The purpose of this study is to evaluate a touch screen application designed to help pediatric patients with cerebral palsy communicate. The study will test how well patients type on two different tools: one tool is already on the market , and the second tool is a newly developed App.