Robotic-Assisted Gait Training (RAGT) in Stroke Rehabilitation: A Pilot Study

IF 1.9 Q2 REHABILITATION Archives of rehabilitation research and clinical translation Pub Date : 2023-03-01 DOI:10.1016/j.arrct.2023.100255

Mariana Vita Milazzotto Neves MSc , Leonardo Furlan PhD , Felipe Fregni MD, PhD , Linamara Rizzo Battistella MD, PhD , Marcel Simis MD, PhD

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引用次数: 1

Abstract

Objective

To compare the effects of 2 types of robotic-assisted gait training (RAGT) devices that have been used in stroke rehabilitation.

Design

Retrospective cohort.

Setting

Rehabilitation hospital.

Participants

24 community dwelling people with stroke (N=24).

Interventions

RAGT with either an exoskeleton (Lokomat) (mean age=53.8 years; 30% men; mean duration of stroke =17.8 months) or an end-effector (G-EO) (mean age=50.5 years; 77.8% men; mean duration of stroke =13.11) delivered 3 times per week (36 sessions total).

Main Outcome Measures

The following tests/scales were employed before and after RAGT: Functional Ambulation Categories (FACs), timed Up and Go (TUG), 10-Meter Walk Test (10MWT), 6-Minute Walk Test (6MWT), Trunk Impairment Scale, Dynamic Gait Index (DGI), Berg Balance Scale (BBS), and ability to climb stairs (time to climb 6 steps of 15 cm each; ability to climb stairs).

Results

There were 5 dropouts, all from the G-EO group. At the end, 10 participants in the Lokomat and 9 in the G-EO group completed the intervention. From pre- to post-RAGT, G-EO patients improved on all functional tests/scales, whereas Lokomat patients improved only on the TUG, DGI, and BBS. Most patients showed improvements above the relative smallest real difference in the TUG, 10MWT, and 6MWT.

Conclusions

Both end-effectors and exoskeletons may improve clinically relevant aspects of walking function. However, this study had a small sample, was retrospective, non-randomized, and had a significant number of drop-outs, therefore its findings should be interpreted carefully. Future studies are needed for investigating potential differences in clinical results, side effects, contraindications, and cost effectiveness between these 2 different types of RAGT.

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机器人辅助步态训练(RAGT)在中风康复中的应用:一项试点研究

目的比较两种机器人辅助步态训练(RAGT)装置在脑卒中康复中的应用效果。DesignRetrospective队列。SettingRehabilitation医院。参与者:24名社区居住的中风患者(N=24)。外骨骼(Lokomat)介入sragt(平均年龄=53.8岁;男性30%;平均中风持续时间=17.8个月)或末端执行器(G-EO)(平均年龄=50.5岁;男性77.8%;平均中风持续时间=13.11)，每周提供3次(共36次)。主要观察指标RAGT前后采用以下测试/量表:功能行走分类(FACs)、定时起身行走(TUG)、10米步行测试(10MWT)、6分钟步行测试(6MWT)、躯干损伤量表、动态步态指数(DGI)、伯格平衡量表(BBS)、爬楼梯能力(爬6级15厘米台阶的时间;会爬楼梯)。结果退组5例，均来自G-EO组。最后，Lokomat组10名参与者和G-EO组9名参与者完成了干预。从ragt前到ragt后，G-EO患者在所有功能测试/量表上均有改善，而Lokomat患者仅在TUG、DGI和BBS上有改善。大多数患者在TUG、10MWT和6MWT方面的改善高于相对最小的实际差异。结论末端执行器和外骨骼均可改善临床相关方面的行走功能。然而，本研究样本量小，是回顾性的，非随机的，并且有大量的退出，因此它的发现应该仔细解释。需要进一步的研究来调查这两种不同类型的RAGT在临床结果、副作用、禁忌症和成本效益方面的潜在差异。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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