5个不同波长的激光及其线偏振激光辐照人正常膀胱组织光学特性

采用双积分球系统和光辐射测量技术的基本原理以及运用生物组织的光学模型，研究了476.5, 488, 496.5, 514.5和532 nm激光及其线偏振激光辐照人正常膀胱组织的光学特性。结果表明：组织对激光及线偏振激光的总衰减系数和散射系数均随着波长的增大而减小，而且线偏振激光与非线偏振激光入射是有明显的差异。吸收系数是随着波长的增大而缓慢地减小，但有一些起伏，而与是否线偏振光入射无明显差异。平均散射余弦也是随着波长的增大而减小，而且线偏振激光与非线偏振激光入射是有明显的差异。光学穿透深度则是随着波长的增大而增大，而有一些起伏。折射率在这5个波长范围内的值在(1.37～1.44)之间。Kubelka-Munk二流模型下组织对同一波长的激光及其线偏振激光的吸收系数、散射系数、总衰减系数和有效衰减系数没有显著性差异(P＞0.05)。组织对不同波长的激光或其线偏振激光的吸收系数、散射系数、总衰减系数和有效衰减系数则有些是有明显的差异。

Optical Properties of Human Normal Bladder Tissue at Five Different Wavelengths of Laser and Their Linearly Polarized Laser Irradiation in Vitro

A double-integrating-spheres system, the basic principle of measuring technology of radiation, and an optical model of biological tissues were used for the study. Optical properties of human normal bladder tissue at 476.5, 488, 496.5, 514.5 and 532 nm of laser and their linearly polarized laser irradiation were studied. The results of measurement showed that total attenuation coefficient and scattering coefficient of human normal bladder tissue at these wavelengths of laser and their linearly polarized laser irradiation increased with decreasing wavelengths. And these was an obvious distinction between the results at these wavelengths of laser and their linearly polarized laser irradiation. Absorption coefficient of human normal bladder tissue at these wavelengths of laser and their linearly polarized laser irradiation was tardily increased with decreasing wavelengths. But there were a number of gurgitations. And these were independent of the wavelengths of laser or their linearly polarized laser irradiation. Mean cosine of scattering of human normal bladder tissue at these wavelengths of laser and their linearly polarized laser irradiation also increased with decreasing wavelengths. And these was an obvious distinction with these wavelengths of laser and their linearly polarized laser irradiation. But penetration depth of human normal bladder tissue at these wavelengths of laser and their linearly polarized laser irradiation also increased with increasing wavelengths. But there were a number of gurgitations. Refractive index of human normal bladder tissue at these wavelengths of laser ranged from 1.37 to 1.44. Absorption coefficient, scattering coefficient, total attenuation coefficient, and effective attenuation coefficients of human normal bladder tissue in Kubelka-Munk two-flux model at the same wavelength of laser and the linearly polarized laser irradiation do not exhibit prominent distinction (P>0.05). Some absorption coefficient, scattering coefficient, total attenuation coefficient, and effective attenuation coefficient of human normal bladder tissue in Kubelka-Munk two-flux model at different wavelengths of laser and their linearly polarized laser irradiation exhibit obvious distinction.