It is the clinical experience of the authors that some children with cerebral palsy who walk in crouch gait show sufficient knee extension during the clinical gait analysis, but walk in considerable knee flexion when they leave the gait laboratory. Possible differences between walking in a gait lab and walking in daily life may be caused by the effect of observational awareness in the lab (also known as the Hawthorne effect), and the lack of dual-tasks (DT) during the analysis (which are common during daily life walking). Since so far there is no technique to reliably measure gait kinematics in children with CP outside of the laboratory, the researchers aim to objectify the influence of both the Hawthorne effect and dual-tasks by introducing different conditions during a standard clinical 3D gait analysis.
Study design: Observational study Study population: Patients with cerebral palsy, bilateral spastic, knee flexion gait pattern, GMFCS classification I-III, age 4-16 years. Objective: To determine the effect of observational awareness (the Hawthorne effect) and dual-tasks on spatiotemporal and kinematic variables during a clinical 3D gait analysis. Primary research question: Does reduced observational awareness and/or introduction of a dual-task influence knee flexion in stance phase in children with spastic diplegie cerebral palsy and knee flexion gait? Secondary research questions: 1. Does reduced observational awareness and/or introduction of a dual-task increase toe walking in children with spastic diplegie cerebral palsy and knee flexion gait? 2. In children with spastic diplegic cerebral palsy and knee flexion gait, do spatiotemporal gait parameters change when observational awareness is reduced and/or a dual-task is introduced? Conditions in which gait data will be gathered: 1. With awareness of observation + without Dual-task 2. With awareness of observation + with Dual-task 3. Without awareness of observation + without Dual-task 4. Without awareness of observation + with Dual-task
Study Type
OBSERVATIONAL
Enrollment
15
Roessingh Research and Development
Enschede, Overijssel, Netherlands
RECRUITINGMinimal knee flexion during the single support phase
Minimal knee flexion during the single support phase
Time frame: Day 1
Foot to floor angle at initial contact
Time frame: Day 1
Knee flexion at initial contact
Time frame: Day 1
Foot to floor angle at moment of minimal knee flexion in single support phase
Time frame: Day 1
Variation of knee kinematics in stance phase
Calculated with the Winters-Waveform Coefficient of variation
Time frame: Day 1
Variation of ankle kinematics in stance phase
Calculated with the Winters-Waveform Coefficient of variation
Time frame: Day 1
Walking speed
Time frame: Day 1
Cadence
Time frame: Day 1
Step length
Time frame: Day 1
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