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Monte Carlo modelling of fluorescence in semi-infinite turbid media

机译：半无限浑浊介质中荧光的蒙特卡洛模拟

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摘要

The incident field size and the interplay of absorption and scattering can influence the in-vivo light fluence rate distribution and complicate the absolute quantification of fluorophore concentration in-vivo. In this study, we use Monte Carlo simulations to evaluate the effect of incident beam radius and optical properties to the fluorescence signal collected by isotropic detector placed on the tissue surface. The optical properties at the excitation and emission wavelengths are assumed to be identical. We compute correction factors to correct the fluorescence intensity for variations due to incident field size and optical properties. The correction factors are fitted to a 4-parameters empirical correction function and the changes in each parameter are compared for various beam radius over a range of physiologically relevant tissue optical properties (μa = 0.1 – 1 cm⁻¹, μs’= 5 – 40 cm⁻¹).

机译：入射场的大小以及吸收和散射的相互作用会影响体内光通量率分布，并使体内荧光团浓度的绝对定量变得复杂。在这项研究中，我们使用蒙特卡洛模拟来评估入射光束半径和光学特性对放置在组织表面的各向同性探测器收集的荧光信号的影响。假设激发和发射波长的光学特性相同。我们计算校正因子，以校正由于入射场大小和光学特性而导致的荧光强度变化。校正因子适合4参数的经验校正函数，并且在生理相关的组织光学特性（μa= 0.1 – 1 cm ^{-1 ）范围内，比较各种光束半径下每个参数的变化，μs'= 5 – 40 cm ^{-1 ）。}}

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期刊名称 other
作者
Yi Hong Ong; Jarod C. Finlay; Timothy C. Zhu;
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作者单位

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年(卷),期 -1(10492),-1
年度 -1
页码 104920T
总页数 12
原文格式 PDF
正文语种
中图分类
关键词
Fluorescence MC simulation tissue optical properties incident field size photodynamic therapy;

机译：荧光;MC模拟;组织光学特性;入射场大小;光动力疗法;

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专利

1. Monte-Carlo Simulation of the Effect of Refractive Index Mismatch On the Fluorescence Detected On the Surface of Semi-Infinite Turbid Media [J] . Li A., Ong Y., Zhu T. Medical Physics . 2018,第6期

机译：Monte-Carlo模拟折射率失配对半无限浊介质表面荧光荧光的仿真
2. Decoupled fluorescence Monte Carlo model for direct computation of fluorescence in turbid media [J] . Zhaoyang Luo, Yong Deng, Kan Wang, Journal of biomedical optics . 2015,第2期

机译：解耦荧光蒙特卡洛模型，用于直接计算混浊介质中的荧光
3. Accurate quantification of fluorescent targets within turbid media based on a decoupled fluorescence Monte Carlo model [J] . Deng Yong, Luo Zhaoyang, Jiang Xu, Optics Letters . 2015,第13期

机译：基于解耦荧光蒙特卡洛模型的混浊介质中荧光目标的准确定量
4. Monte Carlo modelling of fluorescence in semi-infinite turbid media [C] . Yi Hong Ong, Jarod C. Finlay, Timothy C. Zhu Conference on optical interactions with tissue and cells . 2018

机译：半无限浑浊介质中荧光的蒙特卡洛模拟
5. Computational modeling of time-resolved fluorescence transport in turbid media for non-invasive clinical diagnostics. [D] . Vishwanath, Karthik. 2005

机译：用于非侵入性临床诊断的混浊介质中时间分辨荧光传输的计算模型。
6. Modeling diffuse reflectance from homogeneous semi-infinite turbid media for biological tissue applications: a Monte Carlo study [O] . George Zonios, Aikaterini Dimou 2011

机译：模拟来自均质半无限混浊介质在生物组织中的漫反射：蒙特卡洛研究
7. Monte Carlo modeling of fluorescence in semi-infinite turbid media [O] . Yi Hong Ong, Jarod C. Finlay, Timothy C. Zhu 2018

机译：半无限浑浊介质中荧光蒙特卡罗建模
8. Computing the light distribution in turbid media for different scattering and absorption coefficients from a single Monte Carlo simulation [R] . Pierre Marquet, Frederic Bevilaequa, Christian Depeursinge 1995

机译：通过单个蒙特卡罗模拟计算混浊介质中的光分布以获得不同的散射和吸收系数

Monte Carlo modelling of fluorescence in semi-infinite turbid media

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