ABSTRACT
This study helps in monitoring blood glucose level of a patient with the aid of an android device non-invasively. Diabetes is a metabolic disease characterized by high level of sugar in the blood, and considered as the fastest growing long-term disease affecting millions of people globally. The study measures the blood glucose level using sensor patch through diffused reflectance spectra on the inner side of the forearm. The Arduino microcontroller does the processing of the information from the sensor patch while the Bluetooth module wirelessly transmits to the android device the measured glucose level for storing, interpreting and displaying. Results showed that there is no significant between the measured values using the commercially available glucose meter and the created device. Based on ISO 15197 standard 39 of the 40 trials conducted, or 97.5% fell within the acceptable range.
- American Dietetic Association, Carbohydrate Counting for People with Diabetes. (n.d.), Diabetes Care, July 2006Google Scholar
- American Diabetes Association, "Standards of medical care in diabetes", Diabetes Care., Suppl1:S11--S66. 2013Google ScholarCross Ref
- Matthew Bularzik, David Price, Michael Rivera. "Accessible Blood Glucose Monitor", University of Connecticut Biomedical Engineering Senior Design, February 2006Google Scholar
- Jyoti Yadav, Asha Rani and Vijander Singh. "Near-infrared LED based Non-invasive Blood Glucose Sensor" Division of Instrumentation and Control Engineering. 2014.Google Scholar
- Nathaniel G. Clark, "Dietary Carbohydrate (Amount and Type) in the Prevention and Management of Diabetes", American Diabetes Association, Diabetes Care. September 2004.Google Scholar
- Texas Instrument, "OPT101 Monolithic Photodiode and Single-Supply Transimpedance Amplifier", June 2015.Google Scholar
- American Diabetes Association, "Implications of the U.K. Prospective Diabetes Study (Position Statement)". Diabetes Care, 21, 2180--2184, 1998.Google ScholarCross Ref
- International Diabetes Federation, "Guidance for Management of Post meal Glucose", 2007.Google Scholar
- Maruo, M Tsurugi, C Jakusei, O Tomohiro, A Hidenobu, Y Yukio, T Mamoru, I Masataka, O Yukihiro, "Noninvasive Blood Glucose Assay Using a Newly Developed Near-Infrared System", IEEE Journal of Selected Topics in Quantum Electronics, vol. 9, no. 2, pp. 322--330, 2003.Google ScholarCross Ref
- Masab AhmadAwais Kamboh, Ahmed Khan, "Non-invasive blood glucose monitoring using near-infrared spectroscopy", October 16, 2013.Google Scholar
- Ibañez, V.P.; "Development of an Android Application for Power Consumption Management System Using Programmable Toggle Switch", Lecture Notes in Engineering and Computer Science, Volume 2219, 2015, Pages 288--291.Google Scholar
- American Association of Diabetes Education, Practice Advisory, Blood Glucose Meter Accuracy, September 16, 2013.Google Scholar
- S.S.Mule, T.H.Mujawar, M.S.Kasbe, and L.P.Deshmukh; "Microcontroller Based Blood Glucose Meter: Design and Development", International Journal of Engineering Sciences & Emerging Technologies, Mar. 2016. ISSN: 22316604, Volume 8, Issue 5, pp: 234--239.Google Scholar
- World Health Organization, "Global Report on Diabetes", 2016.Google Scholar
- Nancy F. Sheard, Nathaniel G. Clark, Janette C. Brand-Miller, Marion J. Franz, F. Xavier Pi-Sunyer, Elizabeth Mayer-Davis, Karmeen Kulkarni, and Patti Geil; "Dietary Carbohydrate (Amount and Type) in the Prevention and Management of Diabetes: A statement by the American Diabetes Association", Diabetes Care 2004, 2266--2271.Google Scholar
Index Terms
- Non-Invasive Glucose Meter for Android-Based Devices
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