This study aims to: * Investigate the effect of motor imagery training on gait kinematics in children with spastic hemiplegia. * Determine the effect of motor imagery training on balance in children with spastic hemiplegia. * Assess the effect of motor imagery training on trunk endurance in children with spastic hemiplegia.
Children with spastic hemiplegia may experience a variety of concomitant health conditions including, movement difficulty, postural and balance instability, muscle spasticity, difficulty with motor planning and control, and cognitive impairments. Postural and balance disturbances occur due to the difficulty in maintaining the body segments aligned on narrow base of support and there is limitation in balance recovery in hemiplegic children contributing to delayed responses of ankle muscles, inappropriate sequencing, and increased coactivation of agonists/ antagonists muscles. Treatment will vary depending on the severity of impairments, level of activity, participation, and on the priorities highlighted by the patient. Walking is often identified as a main goal, and there is evidence that children with hemiplegia can take steps before regaining standing balance, which would support early walking. Many advanced treatment approaches are used to help improve motor function and gait in patients with hemiplegic CP. Rehabilitation techniques are predominantly focused on alleviating the compromised motor execution facet of action performance, and have not specifically targeted the motor preparation or planning processes. Motor imagery is proposed to be a backdoor mechanism to access the motor system. It being a theoretically feasible method to activate the immature networks involved in motor control. Therefore, for individuals with motor planning problems this cognitive MI training may be useful to improve motor skills. Although it has been shown to be beneficial in adult patients with stroke, and it still awaits empirical testing in young children with CP. Despite the potential benefits of motor imagery training, clinical use of motor imagery training for improving walking and balance abilities is not yet common compared with other conventional modalities in rehabilitation of children with hemiplegia. Consequently, more research and further confirmation are needed regarding the impact of motor imagery training on the gait performance, balance and trunk endurance in children with hemiplegia. Therefore, the purpose of this study to investigate the effect of motor imagery training on balance and kinematic parameters of gait in children with hemiplegia.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
TRIPLE
Enrollment
50
-Facilitation of balance reactions from standing position including: Standing on one leg, weight shifting from standing position, stoop and recover from standing, squat from standing, standing on balance board and pushing the child in different directions. * Facilitation of counterpoising mechanism through instructing the child to kick ball from standing position as well as catching and throwing ball with his hands. * Strengthening exercises for weakened muscles in upper and lower limbs muscle. * Strengthening exercises for back and abdominal muscles. * Stretching exercises for tight muscles in upper and lower limbs. * Gait training activities for correction of gait pattern including: walking on balance beam, walking on balance board, walking on uneven surface, walking using different obstacles (rolls, wedges, stepper) and walking up and down stairs. * Jumping in place and jumping a board.
As a preparation each child will be shown a video of 5 minutes of normal movements. They will be positioned in a comfortable position. The screen is in the child's visual field. Children will be asked to close their eyes and imagine they will perform the physically practiced task for 10 minutes, similar to one shown in the video. Sequence of the task will be verbally explained to the child for better recalling of sensations in muscles during the movements. During the entire exercise schedule child's attention will be focused on the position, and movement of their body, on proprioceptive inputs coming from the leg muscles and on the tactile sensations of foot floor contact. Thereafter, the child will be asked to perform the sequence of tasks, rehearsed mentally for 20 minutes.
Faculty of Physical Therapy - Cairo University
Cairo, Egypt
RECRUITINGAssessing the change in Spatial parameters of gait
Analysis of Spatial parameters of gait by using Kinovea software via 2D gait analysis in order to measure the changes in: stride length (cm), Step length (cm).
Time frame: "through study completion, an average of 3 months"
Assessing the change in cadence
Analysis of temporal parameters of gait by using Kinovea software via 2D gait analysis in order to measure the changes in: cadence (number of steps / minute).
Time frame: "through study completion, an average of 3 months"
Assessing the change in Angular displacement of joint in gait cycle
Analysis of Angular displacement of joint in gait cycle by using Kinovea software via 2D gait analysis in order to measure the changes in: Ankle dorsiflexion angle in initial contact, hip flexion angle at initial swing and knee extension at midstance. All of these parameters will be measured in degrees.
Time frame: "through study completion, an average of 3 months"
Assessing the change in Balance
Evaluation of balance by using HUMAC balance system in order to measure the change in: modified clinical test of sensory integration test (score), limits of stability (score) and weight shift (score). The highest score is (100) and the lower score is (0). The higher scores means a better outcome.
Time frame: "through study completion, an average of 3 months"
Assessing the change in walking speed
Analysis of temporal parameters of gait by using Kinovea software via 2D gait analysis in order to measure the changes in: walking speed (meter / minute).
Time frame: "through study completion, an average of 3 months"
Assessing the change in Trunk muscles endurance
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Evaluation of trunk muscles endurance by using 3 isometric endurance tests in order to measure the change in trunk muscle endurance via using: Trunk flexion endurance test (seconds), trunk extension endurance test (seconds) and lateral trunk endurance test (seconds)
Time frame: "through study completion, an average of 3 months"