糖尿病Covid-19患者无创血糖监测系统误差网格分析评价

Q4 Mathematics

International Journal of Nonlinear Analysis and Applications Pub Date : 2022-01-01 DOI:10.22075/ijnaa.2022.6147

L. N. Bachache, A. Q. Al-Neami, J. Hasan

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引用次数: 2

摘要

由于糖尿病危及生命的危险和冠状病毒大流行的迅速蔓延，对连续血糖监测系统的需求增加，特别是与远程医疗技术相辅之以的需求。在冠状病毒大流行期间和之后，预计糖尿病患者人数将迅速增加。本研究旨在了解糖尿病与COVID-19之间的相互作用以及健康并发症，通过控制血糖水平来减少这些并发症。仔细控制血糖至关重要，因为COVID-19感染患者较差的健康结果与较高的血糖水平密切相关。无创血糖检测系统对控制糖尿病患者健康病例至关重要。无创血糖监测系统基于声光拉曼-纳特相互作用，采用2MHz超声和980nm红外激光。采用Clark's Error Chart和Parkes Error Grid对无创血糖监测系统进行评价，评价结果令人满意。

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Error grid analysis evaluation of noninvasive blood glucose monitoring system of diabetic Covid-19 patients

Due to the life-threatening dangers of diabetic disease and the rapid spread of the Corona pandemic, the demand for continuous glucose monitoring systems increases, especially that complemented with telemedicine technologies. During and after the corona pandemic, the number of diabetes patients is anticipated to rise rapidly. This study aims to learn the interaction between diabetes and COVID-19 and the health complication, owing to control blood glucose levels to decrease these complications. Careful blood sugar control is essential because the poorer health results are strongly linked with greater blood sugar levels in COVID-19 infection patients. The non-invasive glucose detection system is vital to control diabetic COVID-19 patients' health cases. The non-invasive blood glucose monitoring system is based on acousto-optic Raman-Nath interaction using 2MHz ultrasound and 980nm IR laser. Clark's Error Chart and Parkes Error Grid are used for evaluating the non-invasive blood glucose monitoring system and show a promising evaluation result.

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来源期刊

International Journal of Nonlinear Analysis and Applications MATHEMATICS-

自引率

0.00%

发文量

160