INTERNATIONAL JOURNAL OF INFORMATION TECHNOLOGY - Volume 1 Isuue 2, Jan - June
Pages: 1-5
Date of Publication: 02-Apr-2021
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An Assessment of Pain-Free Blood Glucose Level by Noninvasive Methods
Author: Agalya V1, Sumathi S2
Category: Research
Abstract:
Introduction: Diabetes mellitus is the kind of metabolic disease that affects millions of people around the world. Diabetics must have a constant awareness of their blood glucose level to keep their physics in healthy condition.
Keywords: Metabolic, Glucose, Blood, Noninvasive, samples, Linear Regression
DOI: 10.31782/IJCRR.2021.13501
DOI URL: http://dx.doi.org/10.31782/IJCRR.2021.13501
Full Text:
People with diabetics are tasked with monitoring their blood glucose levels at frequent intervals within the day to ensure the blood glucose levels within the permissible range.1 Based on this measurement, diabetics can inspect their health to make sure of their life safety.2-4 The most familiar method of measuring the glucose content is by blood sampling and testing with glucometers. This is done through pricking their skin in fingers many times in a day. This inconvenience can be rectified by the way of noninvasive glucose monitor systems.5 A special type of sensor is introduced here to obtain the accurate value of blood glucose level without collecting blood samples.
Blood Glucose measuring techniques have three categorization1 (i) Invasive (ii) Minimal Invasive and (iii) Noninvasive as shown in figure 1. This paper illustrates on various contents of noninvasive glucose monitoring systems with the following classes, (a) Diabetes and its impact (b) Invasive glucose measurement strategies which are currently in use (c) Traditional strategies on noninvasive glucose measurement (d) New approaches in noninvasive glucometers and (e) Conclusions regarding the feasibility methods.
References:
1. American Diabetes Association. Diagnosis and classification of diabetes mellitus. Diab Car 2014; 37(1):81-90.
2. Shiel WC. Diabetes - What Should My Blood Sugar Levels Be? - Diabetes Mellitus, Type2 Diabetes, Type 1, and Metabolic Disorders Treatment and Medications on MedicineNet.com. Medicine Net 29th edn.2002.
3. Amaral YS. Current development in non-invasive glucose monitoring. Med Engg Phys 2008;30:541-549.
4. Moschou TS. Fluorescence glucose detection: advances toward the ideal in vivo biosensor. J Fluor 2004;14.
5. Badugu CR. A Glucose sensing contact lens: A new approach to non-invasive continuous physiological glucose monitoring. J Fluoresc 2003;13(5):134.
6. Eva TS. Accuracy of the GlucoWatch G2 Biographer and the Continuous Glucose Monitoring System During Hypoglycemia: Experience of the Diabetes Research in Children Network (DirecNet). Diab Car 2004; 27(3): 722–726.
7. Liu R, Chen W, Gu X, Ruikang K, Xu WK. Chance Correlation in non-invasive glucose measurement using near-infrared spectroscopy. J Phys Appl Phys 2005; 38(15):304-314.
8. Christison GB, MacKenzie HA. Laser photoacoustic determination of physiological glucose concentrations in human whole blood. Med Biol Engg Comp 1993; 31:284-290.
9. MacKenzie AW, Hugh A. Advances in Photoacoustic Noninvasive Glucose Testing. Clin Chem 1999;45(9):99-104.
10. Waynant RW, Chenault VM. Overview of Non-Invasive Optical Glucose Monitoring Techniques. IEEE - The World’s Largest Professional Association for the Advancement of Technology. 2011;01.
11. Wickramasingh RT. Current Problems and Potential Techniques in In Vivo Glucose Monitoring. J Fluor 2004;14.
12. March WF, Mueller A, Herbrechtsmeier P. Clinical trial of noninvasive contact lens glucose sensor. Diab Tech Ther 2004;6:782- 789.
13. Smith JL. The Pursuit of Noninvasive Glucose: Hunting deceitful Turkey. 2006.
14. Khalil S. Non-invasive Photonic-Crystal Material for Sensing Glucose in Tears. Clin Chem 2004;50(12):201-205.
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