A prospective pilot study demonstrating non-invasive calibration-free glucose measurement

medRxiv - Endocrinology Pub Date : 2024-08-20 DOI:10.1101/2024.08.17.24312052

Martina Rothenbühler, Aritz Lizoain, Fabien Rebeaud, Adler Perotte, Marc Stoffel, J. Hans DeVries

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Abstract

Glucose is an essential molecule in energy metabolism. Dysregulated glucose metabolism, the defining feature of diabetes, requires active monitoring to prevent significant morbidity and mortality. Current technologies for intermittent and continuous glucose measurement are invasive. Non-invasive glucose measurement would eliminate this barrier towards making glucose monitoring more accessible, extending the benefits from people living with diabetes to prediabetes and the healthy. We developed and investigated a spectroscopy-based system for measuring glucose non-invasively and without per-person calibration. Using data from a study including adults with insulin-treated diabetes, we constructed a computational model from a development cohort of 15 subjects and found a mean absolute relative difference of 14.5% in an independent validation cohort of five subjects. The correlation between the average model sensitivity by wavelength and the spectrum of glucose was 0.45 (p<0.001). Our findings suggest that spectroscopy-based non-invasive measurement of glucose without invasive calibration is possible.

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一项前瞻性试验研究展示了无创无校准葡萄糖测量技术

葡萄糖是能量代谢的重要分子。葡萄糖代谢失调是糖尿病的主要特征，需要对其进行积极监测，以防止严重的发病率和死亡率。目前的间歇性和连续性葡萄糖测量技术都是侵入性的。无创血糖测量将消除这一障碍，使血糖监测更容易获得，并使糖尿病患者、糖尿病前期患者和健康人从中受益。我们开发并研究了一种基于光谱的系统，用于无创测量葡萄糖，且无需按人校准。利用一项研究（包括接受胰岛素治疗的成人糖尿病患者）的数据，我们从 15 名受试者组成的开发队列中构建了一个计算模型，并在 5 名受试者组成的独立验证队列中发现平均绝对相对差异为 14.5%。按波长划分的平均模型灵敏度与葡萄糖光谱之间的相关性为 0.45（p<0.001）。我们的研究结果表明，基于光谱的无创血糖测量无需侵入性校准。

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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medRxiv - Endocrinology

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