Promoting Functional Neck Motion in Patients With Cerebral Palsy Using a Dynamic Neck Brace
Columbia University
Summary
The goal of this study is to characterize the head-neck motion of children with cerebral palsy and investigate how robotics can be used to improve the head-neck coordination of these children. Aim 1 is a cross-sectional study. In this single-session, kinematic and muscle activity data will be collected during the postural static, active-proactive, and reactive postural head tasks. Gross Motor Functional Classification System (GMFCS) levels will also be collected to categorize the sample into subgroups. Aim 2 is a prospective cohort quasi-experimental study. The data will be collected at baseline, across 12 intervention sessions, 1 week post-intervention, and 3 months follow-up. Functional assessments will be used to compare across the pre, mid, and post training. Participants will be assessed in Gross Motor Functional Measures (GMFM), Seated Posture and Reaching Control (SP\&R-co), and Canadian Occupational and Performance Measure (COPM). The primary outcomes will be SP\&R-co test and COPM pre- and post-intervention.
Description
The study investigators plan to recruit a sample of 30 children and adults (10 able-bodied children/young adults for the characterization phase and 20 children/young adults with bilateral cerebral palsy: 10 classified as GMFCS IV and 10 classified as GMFCS V). These participants will be aged 11-21 years. A motion capture/body mounted sensors and Electromyography (EMG) system will be used for measurement. This study will utilize specialized robotics that can apply gentle forces on the head-neck during movement training using the principles of motor learning.
Eligibility
- Age range
- 11–21 years
- Sex
- All
- Healthy volunteers
- Yes
Inclusion Criteria: * CP, as medical diagnosis * GMFCS IV-V classification Exclusion Criteria: * severe cognitive deficits * uncontrolled epilepsy * severe dyskinesia * spinal cord malformations * severe vertebral column deformities (scoliosis \>40° and/or kyphosis \>45º) * blindness * chemo-denervation 3 months before study
Interventions
- DeviceNeck Brace Device
The neck brace device will be manufactured in the Mechanical Department at Columbia University. The device measures head motion and EMG by electronic sensors, passively supports the head in certain configurations by springs, and actively assists head movement by motors. Motor learning principles will be combined with robotics to apply gentle forces on the head-neck during training.
Locations (2)
- ROAR Lab, Mudd HallNew York, New York
- Columbia University Irving Medical CenterNew York, New York