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Determination of Glucose Level in Blood and Aqueous Solution using Fourier Transform Near Infrared Spectroscopy

Title:	Determination of Glucose Level in Blood and Aqueous Solution using Fourier Transform Near Infrared Spectroscopy
Authors:	Jassim, Zahraa Najeh; Ali, Alaa Nouri Abd Moslim; Taqi, Doaa Hasanain; Hamzawi, Raghad Kadhim; Shakir, Ruqayah Haleem; Abdulkadhim , Abdullah Matai; Galawi, Ahmed Aziz
Source:	INTERNATIONAL JOURNAL OF HEALTH SYSTEMS AND MEDICAL SCIENCES; Vol. 2 No. 5 (2023): MAY; 83-89 ; 2833-7433 ; 10.51699/ijhsms.v2i5
Publisher Information:	Academic Journal Inc
Publication Year:	2023
Description:	Fourier transform near infrared spectroscopy is frequently utilized because it can measure a variety of solid and liquid samples, including components that are water soluble. The measurements of glucose concentrations in aqueous solutions are helpful to explore how near-infrared spectroscopy can be used for non-invasive assessments of glucose levels in the blood and how low concentrations of glucose in water may be determined using it. This study uses Fourier transform near-infrared spectroscopy to present an alternate method for estimating the glucose concentration in aqueous solutions below 1000 mg/dL. This method benefits from being non-destructive and less labor-intensive sample preparation. We carefully produced aqueous solutions of glucose at concentrations of 0–100 mg/dL at intervals of 5 mg/dL, 110–500 mg/dL at intervals of 10 mg/dL, and 525–1000 mg/dL at intervals of 25 mg/dL. As a result, 81 standard solution samples overall are produced for the calibration and validation sample sets. Inferring that the near-infrared prediction model is enough to estimate glucose content in the aqueous solutions below 1000 mg/dL, PLSR analysis to near-infrared spectra demonstrates that glucose content in aqueous solutions can be predicted effectively with a maximum variance of 6 mg/dL. While building a non-destructive glucose level measurement system employing a near-infrared light source, the NIR's capacity to detect glucose concentration below 1000 mg/dL is very crucial.
Document Type:	article in journal/newspaper
File Description:	application/pdf
Language:	English
Relation:	https://inter-publishing.com/index.php/IJHSMS/article/view/1743/1499
DOI:	10.51699/ijhsms.v2i5.1743
Availability:	https://inter-publishing.com/index.php/IJHSMS/article/view/1743; https://doi.org/10.51699/ijhsms.v2i5.1743
Rights:	https://creativecommons.org/licenses/by/4.0
Accession Number:	edsbas.703AD17C
Database:	BASE