摘要
Abstract
Objective To investigate the effect of lower extremity exoskeleton robots on balance and walking function of patients with post-stroke cerebellar ataxia.
Methods A total of 60 patients with post-stroke cerebellar ataxia in Beijing Bo'ai Hospital from October,2022 to Octo-ber,2024 were selected,and randomly divided into control group(n=30)and exoskeleton group(n=30)ran-domly.Both groups were given conventional exercise training,including trunk control training,rotation axis training and Frenkel training;the exoskeleton group received additional training with lower limb exoskeleton ro-bots,for four weeks.Before and after treatment,the Gait Watch three-dimensional gait analyzer and the Holden Functional Ambulation Classification(HFAC)were used to evaluate the walking spatiotemporal parameters such as walking speed,walking frequency and step length deviation,as well as the walking ability.Berg Balance Scale(BBS)and the International Cooperative Ataxia Rating Scale(ICARS)were used to access the balance and ataxia functions,respectively.
Results After treatment,the walking speed,walking frequency and step length deviation of both groups improved(|t|>19.676,P<0.001),the BBS score improved(|t|>29.032,P<0.001),and the ICARS scores decreased(t>33.192,P<0.001)in both groups,and they were better in the exoskeleton group than in the control group(|t|>2.284,P<0.05).There was no significant difference in the improvement rate of HFAC between two groups(P>0.05).
Conclusion Lower extremity exoskeleton robots can effectively improve the balance and walking function of patients with post-stroke cerebellar ataxia.关键词
脑卒中/小脑性共济失调/下肢外骨骼机器人/平衡功能/步行功能Key words
stroke/cerebellar ataxia/lower limb exoskeleton robot/balance function/walking function分类
医药卫生
