Abstract: The aim of this study was to develop quantitative methods for relating the microstructure of a tissue to the magnitude and wavelength dependence of its scattering coefficient. Two methods, cell counting and spatial frequency analysis, were used to estimate the distribution of sizes of structures imaged by light and electron microscopy. We found that scatterers in the epidermal layer of the skin exhibit a log-normal size distribution, whereas the spatial fluctuations in the index of refraction of dense fibrous tissues, such as the dermis, follow a power law. The correlations in the refractive indices of a variety of tissues exhibit characteristics of a random fractal with a Hurst coefficient between 0.3 and 0.5. Calculated from the measured distributions and volume fractions, the magnitudes of the scattering coefficient and anisotropy parameters of the tissue were found to be within the range 10 less than $mu$-s$/ less than 35 mm$+$MIN@1$/ and 0.7 less than g less than 0.97, depending on wavelength and tissue structure. Our results suggest that analysis of histological images of tissues is a viable method for estimating the optical parameters of tissues and their wavelength dependence. !15
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机译:摘要:本研究的目的是开发定量方法,以将组织的微观结构与其散射系数的大小和波长相关性联系起来。细胞计数和空间频率分析这两种方法被用来估计通过光学和电子显微镜成像的结构的尺寸分布。我们发现,皮肤表皮层中的散射体显示出对数正态大小分布,而致密纤维组织(如真皮)的折射率的空间波动遵循幂律。各种组织的折射率之间的相关性表现出Hurst系数在0.3到0.5之间的随机分形的特征。从测量的分布和体积分数计算,发现组织的散射系数和各向异性参数的大小在10小于$ mu $ -s $ /小于35 mm $ + $ MIN @ 1 $ /的范围内0.7小于g小于0.97,具体取决于波长和组织结构。我们的结果表明,对组织的组织学图像进行分析是估算组织的光学参数及其波长依赖性的可行方法。 !15
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