用于描述有转弯犹豫的神经科患者转弯特征的惯性传感器算法。

Inertial Sensor Algorithms to Characterize Turning in Neurological Patients With Turn Hesitations.

出版信息

IEEE Trans Biomed Eng. 2021 Sep;68(9):2615-2625. doi: 10.1109/TBME.2020.3037820. Epub 2021 Aug 19.

DOI:10.1109/TBME.2020.3037820

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8428658/

Abstract

BACKGROUND

One difficulty in turning algorithm design for inertial sensors is detecting two discrete turns in the same direction, close in time. A second difficulty is under-estimation of turn angle due to short-duration hesitations by people with neurological disorders. We aimed to validate and determine the generalizability of a: I. Discrete Turn Algorithm for variable and sequential turns close in time and II: Merged Turn Algorithm for a single turn angle in the presence of hesitations.

METHODS

We validated the Discrete Turn Algorithm with motion capture in healthy controls (HC, n = 10) performing a spectrum of turn angles. Subsequently, the generalizability of the Discrete Turn Algorithm and associated, Merged Turn Algorithm were tested in people with Parkinson's disease (PD, n = 124), spinocerebellar ataxia (SCA, n = 51), and HC (n = 125).

RESULTS

The Discrete Turn Algorithm shows improved agreement with optical motion capture and with known turn angles, compared to our previous algorithm by El-Gohary et al. The Merged Turn algorithm that merges consecutive turns in the same direction with short hesitations resulted in turn angle estimates closer to a fixed 180-degree turn angle in the PD, SCA, and HC subjects compared to our previous turn algorithm. Additional metrics were proposed to capture turn hesitations in PD and SCA.

CONCLUSION

The Discrete Turn Algorithm may be particularly useful to characterize turns when the turn angle is unknown, i.e., during free-living conditions. The Merged Turn algorithm is recommended for clinical tasks in which the single-turn angle is known, especially for patients who hesitate while turning.

摘要

背景

将惯性传感器的算法设计转化为实际应用存在两个难点。其一，如何在短时间内检测到同一方向的两个连续转弯；其二，如何避免因神经障碍患者的短暂停顿而导致转弯角度估计不足。本研究旨在验证和确定以下两种算法的有效性和通用性：I. 离散转弯算法，用于检测短时间内连续且接近的转弯；II. 合并转弯算法，用于检测存在停顿的单次转弯角度。

方法

我们首先在健康对照组（HC，n = 10）中使用运动捕捉来验证离散转弯算法，让参与者完成一系列不同转弯角度的动作。随后，我们在帕金森病患者（PD，n = 124）、脊髓小脑共济失调患者（SCA，n = 51）和 HC（n = 125）中测试了离散转弯算法及其相关的合并转弯算法的通用性。

结果

与 El-Gohary 等人之前的算法相比，新的离散转弯算法在与光学运动捕捉和已知转弯角度的比较中，显示出了更好的一致性。对于具有短暂停顿的同一方向的连续转弯，合并转弯算法会将其合并为一个固定的 180 度转弯角度，从而更接近 PD、SCA 和 HC 参与者的实际转弯角度。我们还提出了其他指标来捕捉 PD 和 SCA 患者的转弯停顿。

结论

离散转弯算法在转弯角度未知的情况下（例如，在自由活动条件下）可能特别有用。对于需要已知单转角度的临床任务，尤其是对于在转弯时会停顿的患者，合并转弯算法更推荐使用。

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