Non-invasive glucose measuring apparatus based on conservation of energy method

• Published in: Journal of Central South University of Technology. Science & technology of mining and metallurgy Vol. 16; no. 6; pp. 982 - 986
• Main Authors: Chen, Zhen-cheng, Jin, Xing-liang, Zhu, Jian-ming, Wang, Di-ya, Zhang, Ting-ting
• Format: Journal Article
• Language: English
• Published: Changsha Central South University 01.12.2009
• Subjects: Engineering; Metallic Materials; non-invasive measurement; blood glucose; single chip; conservation of energy method
• ISSN: 1005-9784; 1993-0666
• DOI: 10.1007/s11771-009-0163-7

A new non-invasive blood glucose measuring apparatus (NBGMA) made up of MSP430F149 SCM (single chip micyoco) was developed, which can measure blood glucose level (BGL) frequently, conveniently and painlessly. The hardware and software of this apparatus were designed, and detecting algorithms based on conservation of energy method (COEM) were presented. According to the law of conservation of energy that the energy derived by human body equals energy consumed by metabolism, and the relationship between convection, evaporation, radiation and the BGL was established. The sensor module was designed. 20 healthy volunteers were involved in the clinical experiment. The BGL measured by an automatic biochemical analyzer (ABA) was set as the reference. Regression analysis was performed to compare the conservation of energy method with the biochemical method, using the 20 data points with blood glucose concentrations ranging from 680 to 1 100 mg/L. Reproducibility was measured for healthy fasting volunteers. The results show that the means of BGL detected by NBGMA and ANA are very close to each other, and the difference of standard deviation (SD) is 24.7 mg/L. The correlative coefficient is 0.807. The coefficient of variation (CV) is 4% at 921.6 mg/L. The resultant regression is evaluated by the Clarke error grid analysis (EGA) and all data points are included in the clinically acceptable regions (region A: 100%, region B: 0%). Accordingly, it is feasible to measure BGL with COEM.