Sensory Elements and Devices Operational Diagnostic Blood Glucose Using Near Infrared Radiation

M. V. Kotyk; I. T. Kogut; Ch. G. Saffouri

doi:10.15330/pcss.18.4.471

Authors

M. V. Kotyk Vasyl Stefanyk Precarpathian National University
I. T. Kogut Vasyl Stefanyk Precarpathian National University
Ch. G. Saffouri Taras Shevchenko National University of Kyiv

DOI:

https://doi.org/10.15330/pcss.18.4.471

Keywords:

blood glucose, diabetes, near-infrared, noninvasive method SOI CMOS-structure

Abstract

The article describes a method for measuring the concentration of glucose in human blood by the non-invasive methods using near-infrared optical technology. In medical practice, glucose concentration in the blood in most cases is measured by invasive methods involving the collection of blood from the finger or vein, while non-invasive devices for determining the level of glucose preserve the operational measurement of blood-borne levels. Invasive methods are expensive and painful. Frequent piercing of fingers causes corns on the skin, and also increases the risk of spreading infectious diseases. Thus, the development of a system of non-invasive measurement of glucose in the blood will be useful for patients with diabetes mellitus. The proposed system consists of emitters of signals with a wavelength of 940 nm. These optical signals are sent through the earlobe, and the rays passing through it are fixed by a phototransistor located on another part of the device. The concentration of glucose in the blood is determined by analyzing the intensity variation obtained after passing the signal. The accuracy of the measurements of the proposed system can be improved by integrating its sensitive and emitting elements based on the SOI of the CMOS structures.

References

I. Kogut, M. Kotyk, V. Virstyuk, "Sensory elements and devices operational diagnostic blood glucose," ICPTTN-XV (Ivano-Frankivsk, Ukraine, 2015). Р. 104.

J. Yadav, A. Rani, V. Singh, B.M. Murari, Near-infrared LED based non-invasive blood glucose sensor. IEEE International Conference on Signal Processing and Integrated Networks (SPIN). 2014. Р. 591.

K. Maruo, T. Oota, M. Tsurugi, T. Nakagawa, H. Arimoto, M. Tamura, Y. Ozaki, Y. Yamada, New methodology to obtain a calibration model for noninvasive near-infrared blood glucose monitoring. Applied spectroscopy, 60(4), 441 (2006).

R. Myllylä, Z. Zhao, M. Kinnunen, Handbook of Optical Sensing of Glucose in Biological Fluids and Tissues, Dec.p. 419 (2008).

K. Maruo, M. Tsurugi, J. Chin, T. Ota, H. Arimoto, Y. Yamada, M. Tamura, M. Ishii, Y. Ozaki, IEEE Journal of Selected Topics in Quantum Electronics 9(2), 322 (2003).

Ashok Vajravelu, Nirmal Kumar, Iranian journal of medical sciences 38(1), 51, (2013).

J.S. Maier, S.A. Walker, S. Fantini, M.A. Franceschini, E. Optics letters 19(24), 2062 (1994).

A. Govada, C. Renumadhavi, K. Ramesh, International Journal of Advanced Research in Computer and Communication Engineering 3(1), 5122 (2014).

M.V. Котyк, І.Т. Kogut V.V. Long, VM Grieg, V-th International. scientific practice. conf. "Physicaltechnological problems of transmission, processing and storage of information in infocommation systems" (Chernivtsi, 2016). P. 130.