Résumé
Objective:To investigate the effect of robotic-assisted gait training on the motor function and walking ability for children with spastic cerebral palsy. Methods:From October, 2020 to April, 2021, 34 children with spastic cerebral palsy were randomly divided into control group (n = 17) and experimental group (n = 17). The control group received conventional physical therapy 60 minutes a day, while the experimental group received physical therapy and robotic-assisted gait training, 30 minutes a day respectively. They were assessed with 10-meter walk test (10MWT), 6-minute walk distance (6MWD), Physiological Consumption Index, Gross Motor Functional Measure (D and E dimensions), center of pressure envelope area, and Functional Ambulation Categories before training, eight weeks after training, and one-month follow-up. Results:Four cases dropped out. All the indexes improved in the experimental group after training (|t| > 3.219, P < 0.05), and they were stable as follow-up (|t| < 1.565, P > 0.05), except 10MWT (|t| > 3.491, P < 0.01); while they were better than those in the control group (|t| > 2.108, P < 0.05), except 6MWD. Conclusion:Robotic-assisted gait training can promote the recovery of motor, balance and walking for children with spastic cerebral palsy based on conventional physical therapy, and remain at least one month.
Résumé
@#Objective To investigate the effects of Lokomat robotic-assisted gait training combined with drop foot stimulator on gait function in patients with stroke. Methods Thirty-six stroke patients were randomly divided into control group (n=18) and observation group (n=18). Both groups received routine rehabilitation training. The control group accepted Lokomat robotic-assisted gait training, while the ob-servation group worn drop foot stimulator in addition. The training intensity was 30 minutes every day, five days per week for 6 weeks. Fugl-Meyer Assessment-Lower Limb (FMA-LL), Functional Ambulation Category (FAC) and footprint analysis were used to evaluate the motor ability of lower limbs, walking ability and gait before and after training. Results There was no significant difference in the scores of FMA-LL, FAC and gait parameters (walking speed, stride width, stride length difference) before training (t<0.765, Z=0, P>0.05). The scores of FMA-LL, FAC and walking speed improved, and the stride width and stride length difference decreased after training (t>2.190, Z>3.630, P<0.05). After training, the scores of FMA-LL, FAC, walking speed and stride length difference were better in the observation group than in the control group (t>2.030, Z=-2.560, P<0.05), however, there was no significant difference in stride width between two groups (t=0.570, P>0.05). Conclusion Lokomat robotic-assisted gait training combined with foot drop stimulator could improve the lower limb motor func-tion and gait ability in patients with stroke, and the effect might be better than using Lokomat robotic-assisted gait training only.