This study is directed at identifying a the neurophysiological changes seen in children with cerebral palsy (CP) after undergoing physical therapy. The specific aims of the study will: (1) determine the changes in the sensorimotor cortical activity after physical therapy, (2) determine the mobility, participation and muscular performance improvements after therapy, and (3) determine the changes in a child's participation in activities outside of the laboratory environment.
This study is directed at identifying a the neurophysiological changes seen in children with cerebral palsy (CP) after undergoing physical therapy. The specific aims of the study will: (1) determine the changes in the sensorimotor cortical activity after physical therapy, (2) determine the mobility, participation and muscular performance improvements after therapy, and (3) determine the changes in a child's participation in activities outside of the laboratory environment. The study consists of a cohort of children with CP that will undergo an action-perception training protocol, a cohort that will undergo a high velocity power training protocol and a cohort that will undergo body weight supported treadmill training. Participants will be between the ages of 9-18 years and have gross motor function classification score levels between I-III. All participants will complete final initial baseline measures of their brain activity, mobility, muscle performance, and participation activity outside of the laboratory. After completing these tests, the children will undergo the respective physical therapy protocols for 8-weeks (3 days a week). After the 8-weeks of therapy, both groups will repeat the same tests that were completed at baseline. Follow-up assessment will consist of a physical therapist scheduling a time to visit the family at their house and ask them questions about the child's participation in activities.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
TRIPLE
Enrollment
39
Physical therapy will be implemented three times a week with subjects over an eight week span. Each physical therapy session will last 40-minutes and will be conducted by a licensed physical therapist.
University of Nebraska Medical Center Munroe Meyer Institute
Omaha, Nebraska, United States
Change in Brain Activity in Motor Cortices - MEG
To assess the activity of the motor cortices, the child will produce an isometric knee extension force to match a target that is between 5-30% of his/her maximum voluntary force. The children will be instructed to perform the target matching task as rapidly and as accurately as possible. The MEG experiment will involve the child performing \~120 isometric target matching trials.
Time frame: Baseline and 8 weeks
Change in Brain Activity in Sensory Cortices - MEG
To assess the activity of the somatosensory cortices, a tactile stimulation will be applied to the bottom of the foot at the first metatarsal using a small airbladder. For each child, 120 paired-pulse trials will be collected using an inter-stimulus interval of 500 ms, and an inter-pair interval that randomly varied between 4.5 and 4.8 s.
Time frame: Baseline and 8 weeks
Change in Mobility - 10-Meter Walk
The childs 10-meter preferred and fast-as-possible walking speeds will be evaluated. The children will complete three trials at each speed, and the mean of the respective trials will be the key metric. During these tests, the child will walk across a GaitRITE digital mat (CIR Systems, Sparta, NJ) that will quantify the walking speed, step length, step width and cadence.
Time frame: Baseline and 8 weeks
Change in Mobility - 1-Minute Walk
The child's walking endurance will be assessed by asking them to walk as far as possible for a one-minute time period. Cones will be placed at the ends of a 40-m hallway and the child will be asked to walk back and forth during the time period. During the walk the child will wear a heart-rate monitor and wireless accelerometers that are positioned on the lower back and feet. The heart-rate monitor will be used as an indirect measure of the child's physical fitness, while the accelerometers will be used assess the child's dynamic balance.
Time frame: Baseline and 8 weeks
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.
Change in Resting Cortical Activity - MEG
The resting state activity of the brain will also be collected. This will involve the child sitting quietly with his/her eyes closed for 5 minutes.
Time frame: Baseline and 8 weeks
Change in Mobility - Dynamic Gait Index
The child will be asked to perform a series of mobility tasks such as stepping over shoe-box, changing their gait speed, walking up stairs, turning head while walking, etc. These series of standardized test will be used to assess the child's gait adaptability.
Time frame: Baseline and 8 weeks
Change in Muscle Performance - Biodex
A Biodex System 3 dynamometer will be used to assess the isometric strength and power production of the right and left knee joint musculature separately. Standard alignment of the knee joint axis with the dynamometer and set-up will be implemented. Separate knee extensor and flexor isometric strength tests will initially be measured from three maximal trials with the knee flexed at 90 degrees. This will be followed by the child performing maximal knee extensor/flexion concentric contractions with the dynamometer set at 30 deg/sec, 60 deg/sec and 120 deg/sec. The peak torque generated from the five contractions performed in each of the respective sets will be used as an outcome variable.
Time frame: Baseline and 8 weeks
Change in Patient-Reported Outcomes Measurement Information System (PROMIS)
Survey that evaluates the child's self-reported physical activity, strength and pain. The PROMIS will be completed at baseline and at the 3 and 6 months after therapy. A physical therapist will perform the 3 and 6 month follow-up assessments at the family's home.
Time frame: Baseline and 3 Months Post and 6 Months Post Treatment
Change in Participation in Environment Measure for Children and Youth (PEM-CY)
A survey to be completed by the child's parent/primary caregiver to gather information about the child's current level of participation in home, school and community environments. The survey will provide information regarding frequency of various activities performed, level of involvement during these activities and the parent/caregivers level of desire to see change in the child's involvement in activities. The PEM-CY will be completed at baseline and at the 3 and 6 months after therapy. A physical therapist will perform the 3 and 6 month follow-up assessments at the family's home.
Time frame: Baseline and 3 Months Post and 6 Months Post Treatment
Change in Activity - Actograph
The child will wear an activity tracker at their waist while they are at home, in the community and at school. The activity tracker will be worn for 2 weekdays and 2 weekend days. The average across this time period will be used to assess the activity levels of the child outside of the laboratory setting. These measurements will be performed at baseline and after completing the therapy protocol
Time frame: Baseline 2 week days and two weekends, Post Treatment 2 week days and two weekends
Change in Hoffmann Reflex (H-reflex)
This tests is similar to how a medical doctor performs a tendon tap to assess a child's reflexes. The only difference is the methods that will be employed in this study can quantify the magnitude of the reflex. The H-reflex will be elicited by simulating the tibial or median nerve with a constant current electrical simulator. the muscular activity generated by the stimulus will be measured with EMG. The peak amplitude of the H-reflex seen in the EMG signal will be determined by gradually increasing the stimulus until the amplitude of the reflex no longer increases. Changes in the amplitude before the therapy and after will be used as an indirect assessment of spinal cord plasticity.
Time frame: Baseline and 8 weeks