Analysis of glucose level detection device performance by chemometrics approached and diffuse reflectance fourier transform near infrared spectroscopy / Noor Nazurah Mohd Yatim

Diabetes mellitus is a chronic disease attributed by body that experiences abnormal insulin production that causes high level of glucose in blood. There are three types of blood glucose monitoring which are invasive, minimal invasive and non-invasive. Current glucose measurement method is an invasiv...

Full description

Saved in:
Bibliographic Details
Main Author: Mohd Yatim, Noor Nazurah
Format: Thesis
Language:English
Published: 2017
Subjects:
Online Access:https://ir.uitm.edu.my/id/eprint/38437/1/38437.pdf
Tags: Add Tag
No Tags, Be the first to tag this record!
id my-uitm-ir.38437
record_format uketd_dc
spelling my-uitm-ir.384372022-09-23T09:04:35Z Analysis of glucose level detection device performance by chemometrics approached and diffuse reflectance fourier transform near infrared spectroscopy / Noor Nazurah Mohd Yatim 2017 Mohd Yatim, Noor Nazurah TP Chemical technology Diabetes mellitus is a chronic disease attributed by body that experiences abnormal insulin production that causes high level of glucose in blood. There are three types of blood glucose monitoring which are invasive, minimal invasive and non-invasive. Current glucose measurement method is an invasive type of measurement that require draw out blood sample several times a day with pain and stressful feeling. Meanwhile, non-invasive optical glucose detection is a painless and harmless method that has been shown in this study to help patients monitor their glucose level and improved patient's health. Therefore, the initial investigations were conducted to evaluate the potential of FT-NIRS spectra towards non-invasive level glucose detection using chemometrics analysis. An optical device has been developed for the measurement of glucose level which consists of tungsten halogen light source, Fourier Transform Near Infrared (FTNIR) with photodetector, bifurcated optical fibre as a waveguide, NIR cuvette sample holder and white reflectance standard. Samples in this study were glucose in water, glucose in intralipid, human skin and intracardiac rat's blood. The analysis tools to analyse all these data were Principal Component Analysis (PCA) to analysis and classify types of sample and Partial Least Squared (PLS) to predict glucose concentration. The glucose solutions with different pH, glucose in Allura red and human body skin were classified by PCA. Meanwhile, PLS regression model gave good prediction values for the glucose level in water, glucose in intralipid and rat's intracardiac blood sample. The PLS regression model developed was validated by Root Mean Square Error (RMSE) and Coefficient of Determination (R2 ). The best PLS model was achieved by using Multiplicative Signal Correction (MSC) data preprocessing for the glucose level detection in water which are 125 mg/dl (6.9 mmol/1) RMSE and 0.55 R2 . Meanwhile, glucose in intralipid model by Savitzky Golay (SG) showed 16.3 mg/dl (0.9 mmol/1) RMSE and 0.99 R2 . As for intracardiac rat's blood, the best model was obtained with the application of SG since it provide the lowest RMSE which is 2.05 mg/dl (0.11 mmol/1) and highest value of R2 which is 0.96. This analysis showed promising results for application on human. 2017 Thesis https://ir.uitm.edu.my/id/eprint/38437/ https://ir.uitm.edu.my/id/eprint/38437/1/38437.pdf text en public masters Universiti Teknologi MARA (UiTM) Faculty of Applied Sciences Mohd Zain, Zainiharyati
institution Universiti Teknologi MARA
collection UiTM Institutional Repository
language English
advisor Mohd Zain, Zainiharyati
topic TP Chemical technology
spellingShingle TP Chemical technology
Mohd Yatim, Noor Nazurah
Analysis of glucose level detection device performance by chemometrics approached and diffuse reflectance fourier transform near infrared spectroscopy / Noor Nazurah Mohd Yatim
description Diabetes mellitus is a chronic disease attributed by body that experiences abnormal insulin production that causes high level of glucose in blood. There are three types of blood glucose monitoring which are invasive, minimal invasive and non-invasive. Current glucose measurement method is an invasive type of measurement that require draw out blood sample several times a day with pain and stressful feeling. Meanwhile, non-invasive optical glucose detection is a painless and harmless method that has been shown in this study to help patients monitor their glucose level and improved patient's health. Therefore, the initial investigations were conducted to evaluate the potential of FT-NIRS spectra towards non-invasive level glucose detection using chemometrics analysis. An optical device has been developed for the measurement of glucose level which consists of tungsten halogen light source, Fourier Transform Near Infrared (FTNIR) with photodetector, bifurcated optical fibre as a waveguide, NIR cuvette sample holder and white reflectance standard. Samples in this study were glucose in water, glucose in intralipid, human skin and intracardiac rat's blood. The analysis tools to analyse all these data were Principal Component Analysis (PCA) to analysis and classify types of sample and Partial Least Squared (PLS) to predict glucose concentration. The glucose solutions with different pH, glucose in Allura red and human body skin were classified by PCA. Meanwhile, PLS regression model gave good prediction values for the glucose level in water, glucose in intralipid and rat's intracardiac blood sample. The PLS regression model developed was validated by Root Mean Square Error (RMSE) and Coefficient of Determination (R2 ). The best PLS model was achieved by using Multiplicative Signal Correction (MSC) data preprocessing for the glucose level detection in water which are 125 mg/dl (6.9 mmol/1) RMSE and 0.55 R2 . Meanwhile, glucose in intralipid model by Savitzky Golay (SG) showed 16.3 mg/dl (0.9 mmol/1) RMSE and 0.99 R2 . As for intracardiac rat's blood, the best model was obtained with the application of SG since it provide the lowest RMSE which is 2.05 mg/dl (0.11 mmol/1) and highest value of R2 which is 0.96. This analysis showed promising results for application on human.
format Thesis
qualification_level Master's degree
author Mohd Yatim, Noor Nazurah
author_facet Mohd Yatim, Noor Nazurah
author_sort Mohd Yatim, Noor Nazurah
title Analysis of glucose level detection device performance by chemometrics approached and diffuse reflectance fourier transform near infrared spectroscopy / Noor Nazurah Mohd Yatim
title_short Analysis of glucose level detection device performance by chemometrics approached and diffuse reflectance fourier transform near infrared spectroscopy / Noor Nazurah Mohd Yatim
title_full Analysis of glucose level detection device performance by chemometrics approached and diffuse reflectance fourier transform near infrared spectroscopy / Noor Nazurah Mohd Yatim
title_fullStr Analysis of glucose level detection device performance by chemometrics approached and diffuse reflectance fourier transform near infrared spectroscopy / Noor Nazurah Mohd Yatim
title_full_unstemmed Analysis of glucose level detection device performance by chemometrics approached and diffuse reflectance fourier transform near infrared spectroscopy / Noor Nazurah Mohd Yatim
title_sort analysis of glucose level detection device performance by chemometrics approached and diffuse reflectance fourier transform near infrared spectroscopy / noor nazurah mohd yatim
granting_institution Universiti Teknologi MARA (UiTM)
granting_department Faculty of Applied Sciences
publishDate 2017
url https://ir.uitm.edu.my/id/eprint/38437/1/38437.pdf
_version_ 1783734472592588800