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构建了内光源模型探讨散射介质中的光散射现象,利用蒙特卡罗方法研究了逃逸出组织的后向散射光子数随光子在组织内部发生的散射次数的分布关系,探讨了光源照明方式、辐射强度、接收方式、调制等参数的变化对后向散射的影响,结果表明后向散射光子的数量随散射次数的分布并非简单的单调递增或递减,而是一条先增大后减小出现峰值的曲线. 峰值位置、峰值大小及曲线形状与光源、探测方式、组织光学特性参数等有关.
关键词:
医用光学与生物技术
散射介质
后向散射
蒙特卡罗模拟 相似文献
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有限宽光束在生物组织中传输的蒙特卡罗方法 总被引:1,自引:0,他引:1
基于光在生物组织中的传输理论,研究有限宽光束在生物组织中的传输特性.利用入射光强与格林函数进行卷积计算,推导了有限宽光束在圆柱坐标系下的光传输过程,给出了有限宽光束的光传输方程.以高斯光源和平圆光源为例,进一步给出了两种光源的有限宽光束在生物组织中的光传输方程.介绍了Monte Carlo方法原理及模拟光在多层生物组织中的传输过程.给出了典型三层生物组织的散射系数、吸收系数和折射率等光学参数.利用Monte Carlo方法模拟了有限宽光束在三层生物组织中的传输特性,对比研究了高斯光源和平圆光源有限宽光束在三层生物组织传输时光学参数漫透射率、漫反射率和光能流率的变化规律.这些参数的变化规律可为光在生物组织传输的实际应用提供理论指导. 相似文献
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组织固有荧光光谱定义为未受生物组织吸收、散射作用影响的荧光光谱,能够直接反映组织微观结构和生物化学性质信息。为了减少吸收和散射特性对组织荧光光谱的干扰,从实测的组织荧光光谱中复原更能反映组织荧光特性的组织固有荧光光谱,搭建了基于光纤探头的组织光谱测量系统,实现生物组织相同位置处的荧光光谱和漫反射光谱测量。提出运用扩散理论从实测的漫反射光谱中提取组织生理参数,包括组织中血液体积分数、血氧饱和度、黑色素含量以及波长500 nm处约化散射系数和瑞利散射在总散射中的比例,进而计算可见波段范围内的组织光学参数;然后,根据组织光学参数和实测的漫反射光谱,从实测的荧光光谱中复原得到组织固有荧光光谱。进行临床试验验证,采集受试者皮肤组织荧光光谱与组织漫反射光谱,并复原皮肤固有荧光光谱。通过复原得到的固有荧光光谱反映人体皮肤糖基化终产物积聚量,并最终用于糖尿病无创筛查。结果显示,分别使用实测的荧光光谱和复原得到的固有荧光光谱用于糖尿病筛查时,在特异性水平同为75%时,敏感性分别为69%和90%。 相似文献
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遗传算法在散射介质光输运逆问题研究中的应用 总被引:2,自引:0,他引:2
建立了一个散射介质模型,在用蒙特卡罗方法成功模拟介质中光输运过程的基础上,用遗传算法有效地解决了因蒙特卡罗方法模拟结果的离散性和统计性使其在利用传统化方法进行逆问题研究时存在的困难,从而较好地实现了对散射介质模型的单个光学特性参数的重构和多参数的联合重构,同时还深入地讨论了遗传算法在过程中的作用机理。 相似文献
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漫反射光谱技术被广泛应用于无创测量生物组织光学性质。当光源与探测器很近时,仅仅依靠吸收系数μ_a和约化散射系数μ′_s不能准确描述光源附近光的传播状态。而二阶光学参量γ的引入改善了近光源光的传播状态的描述。本文将生物组织的散射等效成特定球形颗粒的散射,基于Mie散射理论,计算了与散射相函数p(θ)有关的单粒子和多分散系粒子的二阶光学参量γ,研究了γ随尺度参数α和相对折射率m的变化规律,描述了γ与组织结构参量之间的联系,并阐述了γ对粒子特征的表征能力。研究表明,参量γ对尺度参数α小于2的微粒尺寸的改变是敏感的,并呈二次函数关系,其系数与相对折射率呈线性关系;对于相对折射率和尺度参数都不相同的两个粒子,他们的各向异性因子g相同时,二阶光学参量γ却不同,粒子越大,γ表征粒子特征的能力越强。这对于无创探究组织微观形态具有深远的意义。 相似文献
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利用斯托克斯-米勒矩阵表述分析偏振光在手性介质中的传输规律,利用瑞利近似下的单次散射模型和基于米氏散射理论的多次散射的蒙特卡罗方法,探讨葡萄糖对后向散射偏振光传输特性的影响,计算了不同葡萄糖浓度下的后向散射米勒矩阵. 结果表明在含有葡萄糖的手性介质中后向散射米勒矩阵的若干矩阵元表现出微弱的旋光效应,旋光度随葡萄糖浓度增大而增大. 为了检测低浓度下微小的旋光变化,定义了函数对含-不含葡萄糖的米勒矩阵元图像进行处理,提取由葡萄糖引入的图像差异. 结合无创血糖检测应用要求,分析了葡萄糖生理浓度下的矩阵元图像,获
关键词:
医用光学与生物技术
偏振光
斯托克斯-米勒表述
蒙特卡罗模拟 相似文献
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纺织纤维的光散射特性在纺织材料微观结构、光学性质以及无损检测中至关重要。利用纺织纤维各向异性的结构特点改进现有的角谱展开法,得到纺织纤维对倾斜入射平面波的散射以及表征其光散射特性的Mueller矩阵。采用蒙特卡罗算法模拟了平行棉纤维束对倾斜入射偏振光的多次散射,并对其计算结果进行了实验验证。结果表明理论计算和实验测量的散射光斑在形状特征、光强分布上均一致,从而验证了蒙特卡洛方法模拟纺织纤维光散射的正确性。结果同时也表明蒙特卡罗方法在纺织材料光传播特性的理论研究中具有重要的指导意义。 相似文献
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Fujun Zhang Bingquan Chen Shengzhi Zhao Shangming Yang Ruiping Chen Dongcao Song 《Optics & Laser Technology》2004,36(5):4884-359
We present a feasibility study of a new method for determining the tissue optical properties, including the absorption and scattering coefficients and the scattering asymmetry factor. A state-of-the-art radiative transfer model for the coupled air/tissue system, based on rigorous radiative transfer theory, is used in our forward modeling simulations. The concept of the effective photon penetration depth is introduced and used to help determine the depth below, which information about the tissue will not be available through noninvasive imaging of a biological tissue using reflected diffuse light. Simulation results show that for accurate determination of tissue optical properties, one can use radiative transfer theory in conjunction with measurements of reflected radiances as well as other existing techniques. 相似文献
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M. M. Korol’ A. S. Slesar’ M. V. Parkhots A. Ya. Khairullina T. V. Ol’shanskaya 《Journal of Applied Spectroscopy》2009,76(2):260-267
We present a fiber-optic device for noninvasive determination of the optical properties of biological tissues and photosensitizer
concentration. The device developed can be used in two modes: the mode for detection of the spatial distribution of diffuse
reflectance, and the fluorescence mode. We tested the device in vitro on specimens simulating tissue and on whole blood, and
also in vivo on rats. We have shown that with additional modification and adaptation, the device can be used for in vivo monitoring
of parameters important for photodynamic therapy. 相似文献
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Initiated by graphene, two-dimensional(2D) layered materials have attracted much attention owing to their novel layer-number-dependent physical and chemical properties. To fully utilize those properties, a fast and accurate determination of their layer number is the priority. Compared with conventional structural characterization tools, including atomic force microscopy, scanning electron microscopy, and transmission electron microscopy, the optical characterization methods such as optical contrast, Raman spectroscopy, photoluminescence, multiphoton imaging, and hyperspectral imaging have the distinctive advantages of a high-throughput and nondestructive examination. Here, taking the most studied 2D materials like graphene, MoS_2, and black phosphorus as examples, we summarize the principles and applications of those optical characterization methods. The comparison of those methods may help us to select proper ones in a cost-effective way. 相似文献
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The mechanisms of formation of the polarization structure of biospeckle fields of statistical and multifractal phase-inhomogeneous layers are studied. Polarization maps of images are determined for biological tissues of various structures, namely, epidermis, muscular tissue, and myometrium. A relation between the polarization structure of biospeckles and the physiological conditions of phase-inhomogeneous layers is found. The distributions of wavelet coefficients of the polarization images of statistical and multifractal biological tissues are obtained. Criteria for the determination of the coordinate localization and scale of optical inhomogeneities of the architectonics of biological tissues are ascertained. 相似文献
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We investigated the propagation of light in biological tissues that have aligned cylindrical microstructures (e.g., muscle, skin, bone, tooth). Because of pronounced anisotropic light scattering by cylindrical structures (e.g., myofibrils and collagen fibers) the spatially resolved reflectance exhibits a directional dependence that is different close to and far from the incident source. We applied Monte Carlo simulations, using the phase function of an infinitely long cylinder, to explain quantitatively the experimental results. These observations have consequences for noninvasive determination of the optical properties of tissue as well as for the diagnosis of early tissue alterations. 相似文献
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Time-domain light propagation in biological tissue is studied by solving the forward problem for fluorescence diffuse optical
tomography using a convolution of the zero-lifetime emission light and the exponential function for a finite lifetime. We
firstly formulate the fundamental equations in a time-domain assuming that the fluorescence lifetime is equal to zero, and
then the solution including the lifetime is obtained by convolving the emission light and the lifetime function. The model
is a two-dimensional (2-D) 10 mm-radius circle with the optical properties simulating biological tissue for the near infrared
light, and contains some inclusions with fluorophores. Temporal and spatial profiles of excitation and emission light are
calculated and discussed for several models with different inclusions. The results are physically reasonable and will be used
for the inverse problem of fluorescence diffuse optical tomography. 相似文献
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K. G. Kulikov 《Technical Physics》2013,58(11):1571-1577
A mathematical model of a fibrillar biological structure is presented, which makes it possible to analyze the absorption spectra and dispersion curves in vivo. The quantitative estimates based on this model can be used for predicting variations in the optical properties of biological tissue samples, which are associated with various biophysical and biochemical processes. 相似文献
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Light action spectra over wavelengths of 300–1000 nm are calculated for components of the human cutaneous covering: melanin,
basal (bloodless) tissue, and blood oxy- and deoxyhemoglobin. The transformation of the spectra with depth in biological tissue
results from two factors. The first is the wavelength dependence of the absorption coefficient corresponding to a particular
skin chromophore and the second is the spectral selectivity of the radiation flux in biological tissue. This factor is related
to the optical properties of all chromophores. A significant change is found to take place in the spectral distribution of
absorbed radiant power with increasing depth. The action spectrum of light for the molecular oxygen contained in all components
of biological tissue is also studied in the 625–645 nm range. The spectra are found to change with both the volume fraction
of blood vessels and the degree of oxygenation of the blood. These results are useful for analyzing processes associated with
optical absorption that are possible mechanisms for the interaction of light with biological tissues: photodissociation of
oxyhemoglobin and the light-oxygen effect. 相似文献
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温度对生物组织模拟液光学特性影响的研究 总被引:4,自引:0,他引:4
采用牛奶作为生物组织的模拟液,研究温度变化对生物组织光学特性的影响。应用双积分球技术对牛奶在光波波长为1100~1700 nm、温度25~40℃范围内的光学参量进行了测量,分析光学参量随温度的变化规律。结果表明,温度对散射作用的影响比吸收作用更大,随温度的升高,约化散射系数具有明显减小的趋势。与25℃相比,40℃下的约化散射系数下降了约10%;而吸收率的变化趋势不明显且规律复杂。以上研究结果与公开发表的人体离体皮肤组织光学参量随温度变化的研究结果基本一致,从而为深入研究温度对生物组织光学测量的影响提供了理论和实践上的指导。 相似文献