Radiotekhnika
Publishing house Radiotekhnika

"Publishing house Radiotekhnika":
scientific and technical literature.
Books and journals of publishing houses: IPRZHR, RS-PRESS, SCIENCE-PRESS


Тел.: +7 (495) 625-9241

 

Closed-loop system for blood glucose level control

DOI 10.18127/j15604136-201805-12

Keywords:

Evgeniia Litinskaia - National Research University of Electronic Technology (MIET), Bld. 1, Shokin Square, Zelenograd, Moscow, Russian Federation

Kirill Pozhar - National Research University of Electronic Technology (MIET), Bld. 1, Shokin Square, Zelenograd, Moscow, Russian Federation

Nikolai Bazaev - National Research University of Electronic Technology (MIET), Bld. 1, Shokin Square, Zelenograd, Moscow, Russian Federation

Pavel Rudenko - National Research University of Electronic Technology (MIET), Bld. 1, Shokin Square, Zelenograd, Moscow, Russian Federation

Viktor Grinvald - National Research University of Electronic Technology (MIET), Bld. 1, Shokin Square, Zelenograd, Moscow, Russian Federation

Andrey Chekasin - National Research University of Electronic Technology (MIET), Bld. 1, Shokin Square, Zelenograd, Moscow, Russian Federation

Contact: zheka101993@yandex.ru


Diabetes mellitus type 1 is a metabolic disease characterized by chronic increase of blood glucose concentration (BG) that occurs when pancreas is no longer available to produce enough amount of insulin. Patients with diabetes mellitus need continuous control of BG. One of the most widespread methods for type 1 diabetes compensation is pump insulin therapy based on the exogenous insulin infusion combined with special physical activity treatments.
Closed-loop system for BG control may improve efficiency of insulin therapy and, furthermore provides an opportunity to compensate diabetes mellitus automatically. Almost all up-to-date commercial BG meters and monitoring systems are invasive. A portable noninvasive glucometer development is an important task for modern science. In the paper, we present a closed-loop system for blood glucose level control on the basis of a noninvasive glucometer, an insulin pump and model predictive control.

References:
  1. Bazaev N.A., Pozhar K.V. Blood Glucose Prediction for “Artificial Pancreas” System. Gluconeogenesis. Rijeka, Croatia: InTech, 55–73, 2017.
  2. N. Bazaev, K. Pozhar, E. Litinskaya, P. Rudenko. Mathema- ic Model of Blood Glucose Dynamics. The International Journal of Artificial Organs, 40(8), 437, 2017.
  3. N.A. Bazaev, K.V. Pozhar, P.A. Rudenko. Mathematical Modeling of Blood Glucose Concentration Dynamics. Biomedical Engineering, 48(6), 292–296, 2015.
  4. N.A. Bazaev, V.M. Grinvald, A.N. Zhigailo, E.L. Litinskaya, K.V. Pozhar, P.A. Rudenko. A Test bench for performance validation of an artificial pancreas system. Bi- omedical Engineering, Vol. 51, No. 6, March, 2018, pp. 422–426.
  5. P.A. Rudenko, N.A. Bazaev, K.V. Pozhar, E.L. Litinskaia, V.M. Grinvald, A.I. Chekasin. Getting day blood glucose tracks using clinical protocols of the DirecNet database. Bi- omedical Engineering, Vol. 51, No. 5, January, 2018, pp. 346–349.
  6. Ruedy K.J., Beck R.W., Xing D. and Kollman C. For the Diabetes Research in Children Network (DirecNet) Study Group Diabetes Research in Children Network: Availability of Protocol Data Sets // J Diabetes Sci Technol. – 2007. – Vol. 1(5). – pp. 738-745.

© Издательство «РАДИОТЕХНИКА», 2004-2017            Тел.: (495) 625-9241                   Designed by [SWAP]Studio