Accuracy enhancement of metabolic index-based blood glucose estimation with a screening process for low-quality data.

IF 3 3区 医学 Q2 BIOCHEMICAL RESEARCH METHODS
Journal of Biomedical Optics Pub Date : 2024-10-01 Epub Date: 2024-10-25 DOI:10.1117/1.JBO.29.10.107001
Tomoya Nakazawa, Keiji Morishita, Anna Ienaka, Takeo Fujii, Masaki Ito, Fumie Matsushita
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引用次数: 0

Abstract

Significance: Many researchers have proposed various non-invasive glucose monitoring (NIGM) approaches using wearable or portable devices. However, due to the limited capacity of detectors for such compact devices and the movement of the body during measurement, the precision of the acquired data frequently diminishes, which can cause problems during actual use in daily life. In addition, intensive smoothing is often used in post-processing to mitigate the effects of erroneous values. However, this requires a considerable amount of data and results in a delay in the response to the actual blood glucose level (BGL).

Aim: Instead of just applying data smoothing in the post-process of the data acquisition, we propose an active low-quality data screening method in the pre-process. In the proposal phase of the screening process, we employ an analytical approach to examine and formulate factors that might affect the BGL estimation accuracy.

Approach: A signal quality index inspired by the standard deviation concept is introduced to detect visually apparent noise on signals. Furthermore, the total estimation error in the metabolic index (MI) is calculated based on potential perturbations defined by the signal-to-noise ratio (SNR) and the uncertainty due to discrete sampling. Thereafter, the acquired data were screened by these quality indices.

Results: By applying the proposed data screening process to the data obtained from a commercially available smartwatch device in the pre-process, the estimation accuracy of the MI-based BGL was improved significantly.

Conclusions: Adopting the proposed screen process improves BGL estimation accuracy in the smartwatch-based prototype. Applying the proposed screen process will facilitate the integration of wearable and continuous BGL monitoring into size- and SNR-limited devices such as smartwatches and smart rings.

通过筛选低质量数据,提高基于代谢指数的血糖估算的准确性。
意义重大:许多研究人员提出了各种使用可穿戴或便携式设备的无创葡萄糖监测(NIGM)方法。然而,由于这种小巧设备的探测器容量有限,而且在测量过程中身体会移动,因此获取数据的精度经常会降低,这可能会在日常生活的实际使用中造成问题。此外,在后期处理过程中,通常会使用强化平滑处理来减轻错误值的影响。目的:我们提出了一种在前处理过程中主动筛选低质量数据的方法,而不是仅仅在数据采集的后处理中应用数据平滑。在筛选过程的建议阶段,我们采用一种分析方法来研究和制定可能影响血糖估计准确性的因素:方法:受标准偏差概念的启发,我们引入了一个信号质量指标,用于检测视觉上明显的信号噪声。此外,根据信噪比(SNR)定义的潜在扰动和离散采样导致的不确定性,计算出代谢指数(MI)的总估计误差。之后,根据这些质量指数对获取的数据进行筛选:通过在预处理中对从市售智能手表设备获取的数据应用所提出的数据筛选流程,基于 MI 的 BGL 估算精度得到了显著提高:结论:在基于智能手表的原型中,采用建议的筛选流程提高了 BGL 估算的准确性。应用所提出的屏幕流程将有助于将可穿戴和连续 BGL 监测集成到智能手表和智能手环等受尺寸和信噪比限制的设备中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
6.40
自引率
5.70%
发文量
263
审稿时长
2 months
期刊介绍: The Journal of Biomedical Optics publishes peer-reviewed papers on the use of modern optical technology for improved health care and biomedical research.
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