Preliminary Validity and Acceptability of Motion Tape for Measuring Low Back Movement: Mixed Methods Study.

Audrey Lee, Elijah Wyckoff, Emilia Farcas, Job Godino, Kevin Patrick, Spencer Spiegel, Rose Yu, Arun Kumar, Kenneth J Loh, Sara Gombatto
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Abstract

Background: Low back pain (LBP) is a significant public health problem that can result in physical disability and financial burden for the individual and society. Physical therapy is effective for managing LBP and includes evaluation of posture and movement, interventions directed at modifying posture and movement, and prescription of exercises. However, physical therapists have limited tools for objective evaluation of low back posture and movement and monitoring of exercises, and this evaluation is limited to the time frame of a clinical encounter. There is a need for a valid tool that can be used to evaluate low back posture and movement and monitor exercises outside the clinic. To address this need, a fabric-based, wearable sensor, Motion Tape (MT), was developed and adapted for a low back use case. MT is a low-profile, disposable, self-adhesive, skin-strain sensor developed by spray coating piezoresistive graphene nanocomposites directly onto commercial kinesiology tape.

Objective: The objectives of this study were to (1) validate MT for measuring low back posture and movement and (2) assess the acceptability of MT for users.

Methods: A total of 10 participants without LBP were tested. A 3D optical motion capture system was used as a reference standard to measure low back kinematics. Retroreflective markers and a matrix of MTs were placed on the low back to measure kinematics (motion capture) and strain (MT) simultaneously during low back movements in the sagittal, frontal, and axial planes. Cross-correlation coefficients were calculated to evaluate the concurrent validity of MT strain in reference motion capture kinematics during each movement. The acceptability of MT was assessed using semistructured interviews conducted with each participant after laboratory testing. Interview data were analyzed using rapid qualitative analysis to identify themes and subthemes of user acceptability.

Results: Visual inspection of concurrent MT strain and kinematics of the low back indicated that MT can distinguish between different movement directions. Cross-correlation coefficients between MT strain and motion capture kinematics ranged from -0.915 to 0.983, and the strength of the correlations varied across MT placements and low back movement directions. Regarding user acceptability, participants expressed enthusiasm toward MT and believed that it would be helpful for remote interventions for LBP but provided suggestions for improvement.

Conclusions: MT was able to distinguish between different low back movements, and most MTs demonstrated moderate to high correlation with motion capture kinematics. This preliminary laboratory validation of MT provides a basis for future device improvements, which will also involve testing in a free-living environment. Overall, users found MT acceptable for use in physical therapy for managing LBP.

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运动带测量腰背运动的初步有效性和可接受性:混合方法研究
背景:腰背痛(LBP)是一个严重的公共卫生问题,可导致身体残疾,给个人和社会带来经济负担。物理疗法可有效控制腰背痛,包括姿势和运动评估、旨在改变姿势和运动的干预措施以及运动处方。然而,物理治疗师用于客观评估腰背姿势和运动以及监测锻炼的工具有限,而且这种评估仅限于临床会诊的时间范围内。因此,我们需要一种有效的工具,用于评估腰背姿势和运动,并监测诊所外的锻炼情况。为了满足这一需求,我们开发了一种基于织物的可穿戴传感器--运动胶带(Motion Tape,MT),并针对腰背部的使用情况进行了调整。MT 是一种低调、一次性、自粘性皮肤应变传感器,是通过在商用运动胶带上直接喷涂压阻性石墨烯纳米复合材料而开发的:本研究的目的是:(1) 验证 MT 在测量腰背姿势和运动方面的有效性;(2) 评估使用者对 MT 的接受程度:方法:共测试了 10 名无腰背痛的参与者。方法:共有 10 名无腰背痛的参与者接受了测试,使用三维光学运动捕捉系统作为参考标准来测量腰背运动学。将逆反射标记和 MT 矩阵放置在腰背部,在矢状面、正面和轴向平面上同时测量腰背部运动时的运动学(运动捕捉)和应变(MT)。计算交叉相关系数以评估 MT 应变在每个运动过程中参考运动捕捉运动学的并发有效性。在实验室测试后,对每位受试者进行了半结构化访谈,以评估 MT 的可接受性。采用快速定性分析方法对访谈数据进行分析,以确定用户可接受性的主题和次主题:对 MT 应变和腰背运动学的目测表明,MT 可以区分不同的运动方向。MT应变和运动捕捉运动学之间的交叉相关系数从-0.915到0.983不等,相关性的强弱因MT位置和腰背运动方向而异。在用户接受度方面,参与者对 MT 表示了极大的热情,认为它有助于对腰背痛进行远程干预,但也提出了改进建议:MT 能够区分不同的腰背运动,大多数 MT 与运动捕捉运动学表现出中等至高度的相关性。MT 的这一初步实验室验证为未来设备的改进提供了基础,这些改进还将包括在自由生活环境中进行测试。总的来说,用户认为 MT 可以用于物理治疗,以控制腰背痛。
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CiteScore
4.20
自引率
0.00%
发文量
31
审稿时长
12 weeks
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