OBJECTIVE: To measure functional gait improvements of robotic-assisted locomotion training in children with cerebral palsy (CP). DESIGN: Single-case experimental A-B design. SETTINGS: Rehabilitation Centre Affoltern am Albis, Children's University Hospital Zurich, Switzerland (inpatient group) and Neurology Department of the Dr von Haunersches Children's Hospital Munich, Germany (outpatient group). PARTICIPANTS: 22 children (mean age 8.6 years, range 4.6-11.7) with CP and a Gross Motor Function Classification System level II to IV. INTERVENTIONS: 3 to 5 sessions of 45-60 minutes/week during a 3-5-week period of driven gait orthosis training. MAIN OUTCOME MEASURES: 10-metre walk test (10MWT), 6-minute walk test (6MinWT), Gross Motor Function Measure (GMFM-66) dimension D (standing) and dimension E (walking), and Functional Ambulation Categories (FAC). RESULTS: The mean (SD) maximum gait speed (0.78 (0.57) to 0.91 (0.61) m/s; p<0.01) as well as the mean (SD) dimension D of the GMFM-66 (40.3% (31.3%) to 46.6% (28.7%); p<0.05) improved significantly after the intervention period. The mean (SD) 6MinWT (176.3 (141.8) to 199.5 (157.7) m), the mean FAC (2.6 (1.7) to 3.0 (1.6)) and the mean (SD) dimension E of the GMFM-66 (29.5% (30.3%) to 31.6% (29.2%)) also showed an increase, but did not reach a statistically significant level. CONCLUSION: These results suggest that children with CP benefit from robotic-assisted gait training in improving functional gait parameters.
OBJECTIVE: To measure functional gait improvements of robotic-assisted locomotion training in children with cerebral palsy (CP). DESIGN: Single-case experimental A-B design. SETTINGS: Rehabilitation Centre Affoltern am Albis, Children's University Hospital Zurich, Switzerland (inpatient group) and Neurology Department of the Dr von HaunerschesChildren's Hospital Munich, Germany (outpatient group). PARTICIPANTS: 22 children (mean age 8.6 years, range 4.6-11.7) with CP and a Gross Motor Function Classification System level II to IV. INTERVENTIONS: 3 to 5 sessions of 45-60 minutes/week during a 3-5-week period of driven gait orthosis training. MAIN OUTCOME MEASURES: 10-metre walk test (10MWT), 6-minute walk test (6MinWT), Gross Motor Function Measure (GMFM-66) dimension D (standing) and dimension E (walking), and Functional Ambulation Categories (FAC). RESULTS: The mean (SD) maximum gait speed (0.78 (0.57) to 0.91 (0.61) m/s; p<0.01) as well as the mean (SD) dimension D of the GMFM-66 (40.3% (31.3%) to 46.6% (28.7%); p<0.05) improved significantly after the intervention period. The mean (SD) 6MinWT (176.3 (141.8) to 199.5 (157.7) m), the mean FAC (2.6 (1.7) to 3.0 (1.6)) and the mean (SD) dimension E of the GMFM-66 (29.5% (30.3%) to 31.6% (29.2%)) also showed an increase, but did not reach a statistically significant level. CONCLUSION: These results suggest that children with CP benefit from robotic-assisted gait training in improving functional gait parameters.