Optical properties of human normal small intestine tissue determined by Kubelka-Munk method in vitro

doi:10.3748/wjg.v9.i9.2068

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World Journal of Gastroenterology

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1007-9327

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Baishideng Publishing Group Inc, 7041 Koll Center Parkway, Suite 160, Pleasanton, CA 94566, USA

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World J Gastroenterol. Sep 15, 2003; 9(9): 2068-2072
Published online Sep 15, 2003. doi: 10.3748/wjg.v9.i9.2068

Optical properties of human normal small intestine tissue determined by Kubelka-Munk method in vitro

Hua-Jiang Wei, Da Xing, Guo-Yong Wu, Ying Jin, Huai-Min Gu

Hua-Jiang Wei, Da Xing, Ying Jin, Huai-Min Gu, Institute of Laser Life Science, South China Normal University, Guangzhou, 510631, Guangdong Province, China

Hua-Jiang Wei, Department of Physics, Guangdong College of Pharmacy, Guangzhou, 510224, Guangdong Province, China

Guo-Yong Wu, Department of Surgery, the First Affiliated Hospital, Sun Yat-Sen Medical University, Guangzhou, 510080, Guangdong Province, China

Author contributions: All authors contributed equally to the work.

Supported by the Special Funds of National Key Basic Research Project of China, No. 2002CCC00400 and the Team Project of Natural Science Foundation of Guangdong Province, No. 015012

Correspondence to: Da Xing, Institute of Laser Life Science, South China Normal University, Shipai, Tianhe District, Guangzhou 510631, Guangdong Province, China. xingda@hsut.scnu.edu.cn

Telephone: +86-20-85210089 Fax: +86-20-85216052

Received: December 22, 2002
Revised: March 2, 2003
Accepted: March 26, 2003
Published online: September 15, 2003

Abstract

AIM: To study the optical properties of human normal small intestine tissue at 476.5 nm, 488 nm, 496.5 nm, 514.5 nm, 532 nm, 808 nm wavelengths of laser irradiation.

METHODS: A double-integrating-sphere system, the basic principle of measuring technology of light radiation, and an optical model of biological tissues were used in the study.

RESULTS: The results of measurement showed that there were no significant differences in the absorption coefficients of human normal small intestine tissue at 476.5 nm, 488 nm, 496.5 nm laser in the Kubelka-Munk two-flux model (P > 0.05). The absorption coefficients of the tissue at 514.5 nm, 532 nm, 808 nm laser irradiation were obviously increased with the decrease of these wavelengths. The scattering coefficients of the tissue at 476.5 nm, 488 nm, 496.5 nm laser irradiation were increased with the decrease of these wavelengths. The scattering coefficients at 496.5 nm, 514.5 nm, 532 nm laser irradiation were obviously increased with the increase of these wavelengths. The scattering coefficient of the tissue at 532 nm laser irradiation was bigger than that at 808 nm. There were no significant differences in the total attenuation coefficient of the tissue at 476.5 nm and 488 nm laser irradiation (P > 0.05). The total attenuation coefficient of the tissue at 488 nm, 496.5 nm, 514.5 nm, 532 nm, 808 nm laser irradiation was obviously increased with the decrease of these wavelengths, and their effective attenuation coefficient revealed the same trend. There were no significant differences among the forward scattered photon fluxe, backward scattered photon fluxe, and total scattered photon fluxe of the tissue at 476.5 nm, 488 nm, 496.5 nm laser irradiation. They were all obviously increased with attenuation of tissue thickness. The attenuations of forward and backward scattered photon fluxes, and the total scattered photon fluxe of the tissue at 514.5 nm laser irradiation were slower than those at 476.5 nm, 488 nm, 496.5 nm laser irradiation respectively. The attenuations of forward and backward scattered photon fluxes, and total scattered photon fluxes at 532 nm laser irradiation were obviously slower than those at 476.5 nm, 488 nm, 496.5 nm, 514.5 nm laser irradiation. The attenuations of forward and backward scattered photon fluxes, and total scattered photon fluxe at 808 nm laser irradiation were all obviously slower than those at 476.5 nm, 488 nm, 496.5 nm, 514.5 nm, 532 nm laser irradiation respectively.

CONCLUSION: There are significant differences in optical parameters of human normal small intestine tissue in the Kubelka-Munk two-flux model at six different wavelengths of laser radiation. The results would provide a new method of information analysis for clinical diagnosis.

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