一种可穿戴振动装置治疗帕金森氏症动作震颤的初步可行性研究(预印本)

Alissa Pacheco, Tempest A van Schaik, Nadzeya Paleyes, Miguel Blacutt, Julio Vega, Abigail R Schreier, Haiyan Zhang, Chelsea Macpherson, Radhika Desai, Gavin Jancke, Lori Quinn
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引用次数: 0

摘要

背景:帕金森病(PD)是一种神经退行性疾病,具有广泛的运动症状,如震颤。震颤是一种不自主的运动,呈节律性振荡,通常分为静止性震颤和运动性震颤。动作性震颤发生在自主运动时,是一种使人衰弱的帕金森病症状。由于非侵入性干预措施有限,人们越来越需要为出现动作性震颤的患者提供有效的干预措施。微软Emma Watch是一款带有5个振动马达的腕带,是一种非侵入性、非药物性的震颤缓解干预措施:本试验研究调查了使用 Emma Watch 设备来减轻帕金森氏症患者动作性震颤的情况:样本包括 9 名患有帕金森氏症的患者,他们在数字化平板电脑上进行了手写和手部功能任务评估。任务包括画水平线或垂直线、描星、螺旋线、草书 "elelelel "和打印标准句子。每项任务均由 Emma Watch 在不同振动强度下编程完成 3 次,并进行平衡:高强度、低强度(假振动)和无振动。平板电脑的数字分析捕捉了绘画和书写样本的运动、动态和空间属性,从而计算出量化上肢运动功能的数学指数。放置在双手手腕上的 APDM Opal 传感器(APDM 可穿戴技术公司)用于计算加速度和挺举度指标。每位参与者在使用 Emma Watch 后都会收到一份调查问卷,以更好地了解他们对使用该设备的看法。此外,还对图画进行了比较,以确定不同强度之间是否存在视觉差异:共有 9 名帕金森氏症患者接受了测试,其中男性 4 人,女性 5 人,平均年龄 67 岁(标准差 9.4)。使用平板电脑测量的结果(持续时间、平均速度、峰值数量、暂停时间和暂停数量)在不同条件下没有差异。在一小部分参与者中观察到了视觉差异,其中一些人表示感觉到了改善。大多数参与者(8/9)表示 Emma Watch 佩戴舒适,没有人报告设备出现问题:结论:一小部分人的手写能力有了直观的改善,并有主观报告。这项试点研究由于样本量较小而受到限制,在解释定量结果时应考虑到这一点。在未来的研究中,评估振动设备对手部功能或书写能力的影响时,将 Emma Watch 等振动设备与特定任务训练相结合,或根据个人震颤情况个性化调节频率,可能是需要考虑的重要步骤。虽然 Emma Watch 有助于减轻动作性震颤,但作为一种独立的工具,它在改善精细动作或书写技能方面的功效仍有待证实。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Wearable Vibratory Device (The Emma Watch) to Address Action Tremor in Parkinson Disease: Pilot Feasibility Study.

Background: Parkinson disease (PD) is a neurodegenerative disease that has a wide range of motor symptoms, such as tremor. Tremors are involuntary movements that occur in rhythmic oscillations and are typically categorized into rest tremor or action tremor. Action tremor occurs during voluntary movements and is a debilitating symptom of PD. As noninvasive interventions are limited, there is an ever-increasing need for an effective intervention for individuals experiencing action tremors. The Microsoft Emma Watch, a wristband with 5 vibrating motors, is a noninvasive, nonpharmaceutical intervention for tremor attenuation.

Objective: This pilot study investigated the use of the Emma Watch device to attenuate action tremor in people with PD.

Methods: The sample included 9 people with PD who were assessed on handwriting and hand function tasks performed on a digitized tablet. Tasks included drawing horizontal or vertical lines, tracing a star, spiral, writing "elelelel" in cursive, and printing a standardized sentence. Each task was completed 3 times with the Emma Watch programmed at different vibration intensities, which were counterbalanced: high intensity, low intensity (sham), and no vibration. Digital analysis from the tablet captured kinematic, dynamic, and spatial attributes of drawing and writing samples to calculate mathematical indices that quantify upper limb motor function. APDM Opal sensors (APDM Wearable Technologies) placed on both wrists were used to calculate metrics of acceleration and jerk. A questionnaire was provided to each participant after using the Emma Watch to gain a better understanding of their perspectives of using the device. In addition, drawings were compared to determine whether there were any visual differences between intensities.

Results: In total, 9 people with PD were tested: 4 males and 5 females with a mean age of 67 (SD 9.4) years. There were no differences between conditions in the outcomes of interest measured with the tablet (duration, mean velocity, number of peaks, pause time, and number of pauses). Visual differences were observed within a small subset of participants, some of whom reported perceived improvement. The majority of participants (8/9) reported the Emma Watch was comfortable, and no problems with the device were reported.

Conclusions: There were visually depicted and subjectively reported improvements in handwriting for a small subset of individuals. This pilot study was limited by a small sample size, and this should be taken into consideration with the interpretation of the quantitative results. Combining vibratory devices, such as the Emma Watch, with task specific training, or personalizing the frequency to one's individual tremor may be important steps to consider when evaluating the effect of vibratory devices on hand function or writing ability in future studies. While the Emma Watch may help attenuate action tremor, its efficacy in improving fine motor or handwriting skills as a stand-alone tool remains to be demonstrated.

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