View clinical trials related to Cerebral Palsy.
Filter by:The purpose of this study is to determine the effects of Central Nervous System Stimulants, represented by Methylphenidate and Modafinil, compared to placebo control on motor performance in children with Cerebral Palsy. This study will be a triple-masked study per the American Academy of Neurology guidelines for clinical trials.
In individuals with cerebral palsy (CP), signals from the brain to the muscles that are required for coordinated walking are either poorly controlled or absent. This results in abnormal walking (or gait) patterns and difficulty with independent movement. The purposes of this study is to test a device - a wearable leg sleeve - that can measure the abnormal signals sent from the brain to the muscles and the resulting movements and then send signals to the muscles to help make walking easier and smoother. 20 participants with, and 10 participants without, CP are being asked to come to test the device at the Kameron Gait and Motion Analysis Center. This requires one visit, which will last approximately 2-4 hours. During this visit, participants will undergo a physical exam and will be fit for the device on their leg. The participant will be asked to move their legs while the device is on to calibrate the device, and then the participants will walk while the device is interpreting their movement patterns. Participants with cerebral palsy will additionally walk with the device on their leg in a "corrective mode," where the device will provide stimulation to certain muscles in their leg in order to improve the patient's walking pattern. Last, participants will complete an instrumented gait analysis. Gait analysis involves recording movement patterns during walking using small reflective markers and sensor taped to the participant's legs and trunk. A series of cameras and computers are used to record the leg position and the walking speed. This data will be compared to the data provided from the device.
Nordic walking is a physical activity consisting of walking with poles similar to ski poles. The poles are designed for the purpose of activating the upper body during walking. The poles are equipped with rubber or spike tips and the walking itself resembles.
Adolescents with cerebral palsy (CP) have limitations to perform daily routine activities. The use of educational strategies associated to an approach based on motor learning principles was found to be effective in promoting motor outcomes in individuals with CP. The aim of the present study is to investigate the effectiveness of an intensive, goal-directed training associated with education for parents and adolescents in promoting the daily functioning of adolescents with CP. A randomized clinical trial, with 20 adolescents with CP, aged between 12 and 17 years and 11 months, and their respective caregivers. Adolescents will be randomly allocated into one of two groups: (a) intensive training of functional goals with adolescents or (b) intensive functional goal training with adolescents, including parenting and adolescent education strategies.
Dystonia is a severely disabling movement disorder with no cure, in which people suffer painful muscle spasms causing twisting movements and abnormal postures. There are many causes, including genetic conditions and brain injury. The most common cause in childhood is dystonic cerebral palsy (CP) which often affects the whole body. The underlying mechanisms are unknown, but there is growing evidence to implicate abnormal brain processing by the brain of incoming "sensory" information (e.g., signals to the brain from our senses of touch and body position): the distorted perception of these signals disrupts the way the brain produces instructions for planning and performing movements. The investigator's previous studies have shown that the way the brain processes sensory information related to movement is abnormal in children with dystonia and dystonic CP, by using methods that record the EEG (electroencephalogram - brain wave signals) and/or EMG (electromyogram - electrical signal from muscles). A specific brain rhythm (called mu) typically shows well-defined changes in response to movement, and reflects processing of sensory information. The investigator's work shows these rhythm changes are abnormal in children with dystonia/dystonic CP. This study will explore if these findings can improve treatment. In particular the study team will investigate whether children and young people with dystonia/dystonic CP can enhance these mu rhythm responses during a movement task by using feedback of their brain rhythms displayed as a cartoon/game on a computer. The investigators will also assess whether enhanced mu activity is associated with improved movement control. This would open future possibilities to use such devices for therapy/rehabilitation. Children and young people with dystonia/dystonic CP aged 5-25 years will be recruited, along with age-matched controls. Studies will last 2-3 hours with time for breaks and will be conducted at Evelina London Children's Hospital and Barts Health Trust, with the option for home visits if preferable for families.
Whole body vibration has been widely used in rehabilitation of individuals with disabilities as well as children with cerebral palsy. Previous studies have demonstrated the efficacy of Whole body vibration on balance, gross motor function, spasticity and bone density in children with cerebral palsy. However, adding extra weight during Whole body vibration for children with cerebral palsy as a means of enhancing the potential effects of Whole body vibration is unknown. Therefore, the aim of this study is to examine the effect of Whole body vibration with weighted vest on trunk control, balance and gross motor function in children with spastic diplegia.
In recent years, it is seen that dynamic compression garments are used to increase body stability and to provide tone regulation. Dynamic compression garments are used to apply pressure to specific muscles or muscle groups. Different studies have drawn attention to the effect of dynamic compression garments on postural control and proximal stability. Researchers observed that upper extremity functions and fine motor skills improved with the use of clothing, and they associated this with improved proximal stability. In light of this information, the aim of this study is; To investigate the effects of dynamic compression garments applied in addition to traditional treatment on posture, trunk control, and upper extremity functions during sitting in children with hemiparetic CP.
To examine if adding plyometric exercises to sensorimotor exercises would improve respiratory function in children and adolescents with cerebral palsy
Robot-assisted gait training (RAGT) can provide a longer training duration with a higher repetition of stepping while maintaining a stable pattern of movement. However, the existing evidence of its effectiveness is not clear. The aim of this study is to investigate the feasibility and the effect of increased frequency (4 times per week) of RAGT compared to the most common frequency (2 times per week). we hypothesize that increased frequency of RAGT will result in greater improvements on the gait functions. This research will investigate the effect of increased frequency on robotic assisted gait training (RAGT) in a frequency of 4 times per a week, and will compare the effect of robotic assisted gait training (RAGT) with increased frequency and with usual frequency (2 times per a week) in regards with gait functional parameters such as balance, speed, endurance, and quality of gait among cerebral palsy (CP) children's.
The aim of this study is to determine the functional status of upper extremity using HABIT & HABIT-ILE. And to compare the effects of HABIT with and without lower extremity technique on functional status of hemiplegic cerebral palsy