Near-Infrared Spectroscopy Characteristics of Glucose in Tissue Phantom

Shan Huang; Shuyuan Zhu; Mengmeng Zhao; Jihong Feng

doi:10.3788/LOP57.153006

Journals >Laser & Optoelectronics Progress >Volume 57 >Issue 15 >Page 153006 > Article

Laser & Optoelectronics Progress
Vol. 57, Issue 15, 153006 (2020)

Near-Infrared Spectroscopy Characteristics of Glucose in Tissue Phantom

Shan Huang, Shuyuan Zhu, Mengmeng Zhao, and Jihong Feng^*

Author Affiliations

Intelligent Physiological Measurement and Clinical Translation, Beijing International Base for Scientific and Technological Cooperation, College of Life Science and Bioengineering, Beijing University of Technology, Beijing 100124, China

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DOI: 10.3788/LOP57.153006 Cite this Article Set citation alerts

Shan Huang, Shuyuan Zhu, Mengmeng Zhao, Jihong Feng. Near-Infrared Spectroscopy Characteristics of Glucose in Tissue Phantom[J]. Laser & Optoelectronics Progress, 2020, 57(15): 153006 Copy Citation Text

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Spectra curves and partial enlarged views of solutions with different glucose mass concentrations in wavelength range of 600-1300 nm. (a) Absorption spectra of pure water and glucose solutions of different mass concentrations; (b) reflectance spectra of 2% Intralipid solutions with different glucose mass concentrations; (c) reflection absorbance of 2% Intralipid solutions ith different glucose mass concentrations

Fig. 1. Spectra curves and partial enlarged views of solutions with different glucose mass concentrations in wavelength range of 600-1300 nm. (a) Absorption spectra of pure water and glucose solutions of different mass concentrations; (b) reflectance spectra of 2% Intralipid solutions with different glucose mass concentrations; (c) reflection absorbance of 2% Intralipid solutions ith different glucose mass concentrations

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Difference results of absorbance. (a) Glucose solutions of different mass concentrations and pure water; (b) Intralipid with different glucose mass concentrations and Intralipid without glucose

Fig. 2. Difference results of absorbance. (a) Glucose solutions of different mass concentrations and pure water; (b) Intralipid with different glucose mass concentrations and Intralipid without glucose

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Fig. 3. Linearity curves at different wavelengths. (a) Absorption spectra of glucose solutions with different mass concentrations; (b) reflection spectra of Intralipid with different glucose mass concentrations

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Fig. 4. Sensitivity curves at different wavelengths. (a) Absorption spectra of glucose solutions with different mass concentrations; (b) reflection spectra of Intralipid with different glucose mass concentrations

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Wavelength /nm	Average	Standard deviation
600-820	0.400	0.195
820-1140	1.188	1.827
1140-1210	0.191	0.177
1210-1250	1.471	1.330
1250-1300	0.292	0.423

Table 1. Average values and standard deviations of L in absorption spectra of glucose solutions

Wavelength /nm	Average	Standard deviation
600-860	0.293	0.044
860-1010	0.365	0.151
1010-1130	0.273	0.031
1130-1200	0.283	0.052
1200-1300	0.230	0.041

Table 2. Average values and standard deviations of L in reflection spectra of Intralipid

Wavelength /nm	Average
600-1130	0.011
1130-1200	0.036
1200-1270	0.004
1270-1300	0.026

Table 3. Average values of

S

in absorption spectra of glucose solutions

Wavelength /nm	Average
600-850	0.204
850-940	0.206
940-1150	0.237
1150-1300	0.311

Table 4. Average values of

S

in reflection spectra of Intralipid

Shan Huang, Shuyuan Zhu, Mengmeng Zhao, Jihong Feng. Near-Infrared Spectroscopy Characteristics of Glucose in Tissue Phantom[J]. Laser & Optoelectronics Progress, 2020, 57(15): 153006

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