虚拟现实自行车平台对共济失调和偏瘫患者下肢康复的影响:试点随机对照试验。

IF 3.8 2区 医学 Q1 HEALTH CARE SCIENCES & SERVICES JMIR Serious Games Pub Date : 2024-01-04 DOI:10.2196/39286
Ana Rojo, Arantxa Castrillo Calvillo, Cristina López, Rafael Raya, Juan C Moreno
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引用次数: 0

摘要

背景:基于运动学习原理和神经可塑性的新干预措施已在共济失调和偏瘫患者中进行了测试。蹬车练习疗法也显示出其在改善肌肉活动、力量和平衡方面的潜力。虚拟现实(VR)已被证明是提高物理治疗依从性的有效工具,但它是否能比传统疗法带来更大的改善仍未确定:我们的目的是比较使用 VR 技术进行自行车运动与不使用 VR 技术进行自行车运动对下肢运动范围(ROM)的影响:我们对 20 名共济失调和偏瘫患者进行了随机对照试验。参与者分为两组:实验组(10 人,50%)使用 VR 系统进行踩踏练习,对照组(10 人,50%)不使用 VR 进行踩踏练习。在进行自行车运动干预之前和之后,对髋关节和膝关节的主动和被动 ROM 进行了测量,干预包括 3 次持续时间相同但速度逐渐增加的训练(4、5 和 6 公里/小时)。通过重复测量方差分析,比较了各组干预前(Ti)和干预后(Te)的评估结果。此外,通过比较各组干预前和干预后评估之间的变异系数(Δ = 1 - [Te / Ti]),分析了使用 VR 系统的改进效果。组间比较采用独立的单尾 t 检验:结果:随着时间的推移,左髋关节主动屈曲有明显改善(P=.03),但没有组间交互效应(P=.67)。被动左侧屈髋(P=.93)没有明显改善,主动和被动右侧屈髋的结果类似(P=.39 和 P=.83)。膝关节屈曲的评估结果(主动左膝关节屈曲:P=.06;被动左膝关节屈曲:P=.83P=.06;被动左P=.76;主动右侧:P=.34;被动右侧:P=.83):P=.34;被动右侧:P=.06)和膝关节伸展的评估结果均不理想:P=.06)和膝关节伸展评估均未显示出显著变化(主动左侧:P=.66;被动左侧:P=.66;主动右侧:P=.34;被动右侧:P=.83):P=.66;被动左P=.92;主动右膝:P=.12;被动右膝:P=.06主动右膝:P=.12;被动右膝:P=.38):P=.38).不过,右膝被动伸展(P=.04)随着时间的推移有了明显改善。总体而言,虽然膝关节和髋关节的主动和被动ROM总体上有所改善,但各组之间没有发现统计学上的显著差异:在这项研究中,使用 VR 系统进行自行车运动干预的参与者与接受传统训练的参与者在下肢 ROM 方面的改善情况相似。最终,VR 系统可用于让参与者参与体育锻炼。
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Effects of a Virtual Reality Cycling Platform on Lower Limb Rehabilitation in Patients With Ataxia and Hemiparesis: Pilot Randomized Controlled Trial.

Background: New interventions based on motor learning principles and neural plasticity have been tested among patients with ataxia and hemiparesis. Therapies of pedaling exercises have also shown their potential to induce improvements in muscle activity, strength, and balance. Virtual reality (VR) has been demonstrated as an effective tool for improving the adherence to physical therapy, but it is still undetermined if it promotes greater improvements than conventional therapy.

Objective: Our objective was to compare the effect on lower limb range of motion (ROM) when using VR technology for cycling exercise versus not using VR technology.

Methods: A randomized controlled trial with 20 patients with ataxia and hemiparesis was carried out. The participants were divided into 2 groups: the experimental group (n=10, 50%) performed pedaling exercises using the VR system and the control group (n=10, 50%) performed pedaling exercises without using VR. Measurements of the active and passive ROM of the hip and knee joint were taken before and after a cycling intervention, which consisted of 3 sessions of the same duration but with progressively increasing speeds (4, 5, and 6 km/h). Repeated measures ANOVAs were conducted to compare the preintervention (Ti) and postintervention (Te) assessments within each group. Additionally, the improvement effect of using the VR system was analyzed by comparing the variation coefficient (Δ = 1 - [Te / Ti]) between the preintervention and postintervention assessments for each group. Group comparisons were made using independent 1-tailed t tests.

Results: Significant improvements were shown in active left hip flexion (P=.03) over time, but there was no group-time interaction effect (P=.67). Passive left hip flexion (P=.93) did not show significant improvements, and similar results were observed for active and passive right hip flexion (P=.39 and P=.83, respectively). Neither assessments of knee flexion (active left: P=.06; passive left: P=.76; active right: P=.34; passive right: P=.06) nor knee extension showed significant changes (active left: P=.66; passive left: P=.92; active right: P=.12; passive right: P=.38). However, passive right knee extension (P=.04) showed a significant improvement over time. Overall, although active and passive ROM of the knee and hip joints showed a general improvement, no statistically significant differences were found between the groups.

Conclusions: In this study, participants who underwent the cycling intervention using the VR system showed similar improvement in lower limb ROM to the participants who underwent conventional training. Ultimately, the VR system can be used to engage participants in physical activity.

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来源期刊
JMIR Serious Games
JMIR Serious Games Medicine-Rehabilitation
CiteScore
7.30
自引率
10.00%
发文量
91
审稿时长
12 weeks
期刊介绍: JMIR Serious Games (JSG, ISSN 2291-9279) is a sister journal of the Journal of Medical Internet Research (JMIR), one of the most cited journals in health informatics (Impact Factor 2016: 5.175). JSG has a projected impact factor (2016) of 3.32. JSG is a multidisciplinary journal devoted to computer/web/mobile applications that incorporate elements of gaming to solve serious problems such as health education/promotion, teaching and education, or social change.The journal also considers commentary and research in the fields of video games violence and video games addiction.
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