虚拟现实训练和机器人辅助步态训练相结合对亚急性脑卒中高功能患者的认知功能、日常生活活动和生活质量的影响》(The Effects of Combined Virtual Reality Exercises and Robot Assisted Gait Training on Cognitive Functions, Daily Living Activities, and Quality of Life in High Functioning Individual With Subacute Stroke.

IF 1.4 4区 心理学 Q4 PSYCHOLOGY, EXPERIMENTAL Perceptual and Motor Skills Pub Date : 2024-06-01 Epub Date: 2024-02-28 DOI:10.1177/00315125241235420
Murat Akinci, Mustafa Burak, Fatma Zehra Kasal, Ezgi Aydın Özaslan, Meral Huri, Zeynep Aydan Kurtaran
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引用次数: 0

摘要

脑卒中是一个全球性的健康问题,会导致大量死亡。幸存者面临着身体、认知和情感方面的挑战,影响了他们的生活满意度和社会参与度。采用虚拟现实技术的机器人辅助步态训练(如 Lokomat)是一种很有前景的康复工具。我们研究了它对中风患者认知状态、日常生活活动和生活质量的影响。2022 年 9 月至 2023 年 8 月期间,我们让 34 名处于亚急性阶段(中风后 3-6 个月)的首次中风患者(8 名女性,26 名男性;平均年龄为 59.15 岁,平均年龄为 11.09 岁;平均身高为 170.47 厘米,平均身高为 8.13 厘米;平均体重为 75.97 千克,平均体重为 10.87 千克;平均中风后天数为 70.44 天,平均中风后天数为 33.65 天)接受了 Lokomat 训练。排除标准为无法进行 Lokomat 运动、残疾与预期测量不符以及任何认知限制。对照组(CG)接受常规物理治疗,而Lokomat组(LG)则同时接受常规物理治疗和机器人辅助步态虚拟现实训练,由一名职业治疗师负责管理。评估由一名物理治疗师进行,他不知道参与者的分组情况,评估包括蒙特利尔认知评估、劳顿-布罗迪日常生活活动工具量表和卒中特定生活质量量表(SS-QoL)。两组患者的生活质量都有所提高,但在能量(p = .002)和活动能力(p = .005)方面,LG 在 SS-QoL 方面的表现优于 CG(p = .01)。两组在认知功能(p < .001)和日常生活活动(p < .05)方面均有改善,其中 LG 优于 CG(p = .023)。因此,对处于亚急性中风阶段的患者来说,增加使用 Lokomat 和虚拟现实技术的机器人辅助步态训练可提高自我报告的生活质量和日常活动能力,其水平超过了传统的物理治疗。对认知功能的增量影响并不明显,这可能是由于认知功能恢复较快,也可能是有限的认知测试未能发现。
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The Effects of Combined Virtual Reality Exercises and Robot Assisted Gait Training on Cognitive Functions, Daily Living Activities, and Quality of Life in High Functioning Individuals With Subacute Stroke.

Stroke is a global health concern causing significant mortality. Survivors face physical, cognitive, and emotional challenges, affecting their life satisfaction and social participation. Robot-assisted gait training with virtual reality, like Lokomat, is a promising rehabilitation tool. We investigated its impact on cognitive status, activities of daily living, and quality of life in individuals with stroke. Between September 2022 and August 2023, we exposed 34 first stroke patients (8 women, 26 men; M age = 59.15, SD = 11.09; M height = 170.47, SD = 8.13 cm; M weight = 75.97; SD = 10.87 kg; M days since stroke = 70.44, SD = 33.65) in the subacute stage (3-6 months post-stroke) to Lokomat exercise. Participant exclusion criteria were Lokamat exercise inability, disabilities incompatible with intended measurements, and any cognitive limitations. The Control Group (CG) received conventional physiotherapy, while the Lokomat Group (LG) received both conventional physiotherapy and robot-assisted gait training with virtual reality, administered by an occupational therapist. Evaluations were conducted by a physiotherapist who was unaware of the participants' group assignments and included assessments with the Montreal Cognitive Assessment, Lawton Brody Instrumental Activities of Daily Living Scale, and Stroke Specific Quality of Life Scale (SS-QoL). Both groups demonstrated an improved quality of life, but the LG outperformed the CG with regard to SS-QoL (p = .01) on measures of Energy (p = .002) and Mobility (p = .005). Both groups showed improvements in cognitive functioning (p < .001) with no between-group difference, and in activities of daily living (p < .05) for which the LG was superior to the CG (p = .023). Thus, adding robot-assisted gait training with Lokomat and virtual reality improved self-reported quality of life and daily activities at levels beyond conventional physiotherapy for patients in the subacute stroke phase. An incremental impact on cognitive functions was not evident, possibly due to rapid cognitive recovery or this was undetected by limited cognitive testing.

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来源期刊
Perceptual and Motor Skills
Perceptual and Motor Skills PSYCHOLOGY, EXPERIMENTAL-
CiteScore
2.90
自引率
6.20%
发文量
110
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