A theoretical comparison of macroscopic and microscopic modeling of singlet oxygen during Photofrin and HPPH mediated-PDT

机译：Photofrin和HPPH介导的PDT期间单线态氧的宏观和微观建模的理论比较

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Mathematic models were developed to simulate the complex dynamic process of photodynamic therapy (PDT). Macroscopic or microscopic modeling of singlet oxygen (~1O_2) is particularly of interest because it is the major cytotoxic agent causing biological effects during PDT. Our previously introduced macroscopic PDT model incorporates the diffusion equation for the light propagation in tissue and the macroscopic kinetic equations for the production of the ~O_2. The distance-dependent distribution of ~3O_2 and reacted ~1O_2 can be numerically calculated using finite-element method (FEM). We recently improved the model to include microscopic kinetic equations of oxygen diffusion from uniformly distributed blood vessels and within tissue. In the model, the cylindrical blood capillary has radius in the range of 2-5 μm and a mean length of 300 μm, and supplies oxygen into tissue. The blood vessel network is assumed to form a 2-D square grid perpendicular to a linear light source. The spacing of the grid is 60 μm. Oxygen can also diffuse along the radius and the longitudinal axial of the cylinder within tissue. The oxygen depletion during Photofrin-PDT can be simulated using both macroscopic and microscopic approaches. The comparison of the simulation results have reasonable agreements when velocity of blood flow is reduced during PDT.

机译：开发了数学模型来模拟光动力疗法（PDT）的复杂动力过程。单线态氧（〜1O_2）的宏观或微观建模特别受关注，因为它是PDT期间引起生物学效应的主要细胞毒性剂。我们先前介绍的宏观PDT模型结合了用于组织中光传播的扩散方程式和用于生成〜O_2的宏观动力学方程式。〜3O_2和反应后〜1O_2的距离相关分布可以使用有限元方法（FEM）进行数值计算。我们最近改进了该模型，以包括从均匀分布的血管和组织内扩散的氧气的微观动力学方程。在该模型中，圆柱形毛细血管的半径在2-5μm范围内，平均长度为300μm，并向组织中供氧。假设血管网络形成垂直于线性光源的二维正方形栅格。网格的间距为60μm。氧气还可以沿着圆柱体的半径和纵向轴线在组织内扩散。可以使用宏观和微观方法模拟Photofrin-PDT中的氧耗竭。当PDT期间血流速度降低时，模拟结果的比较具有合理的一致性。

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来源
《Optical methods for tumor treatment and detection: mechanisms and techniques in photodynamic therapy XXII》|2013年|856805.1-856805.12|共12页
会议地点 San Francisco CA(US)
作者
Baochang Liu; Michele M. Kim; Timothy C. Zhu;
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作者单位

Department of Radiation Oncology, School of Medicine, University of Pennsylvania, Philadelphia, PA 19104;

Department of Radiation Oncology, School of Medicine, University of Pennsylvania, Philadelphia, PA 19104;

Department of Radiation Oncology, School of Medicine, University of Pennsylvania, Philadelphia, PA 19104;

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正文语种 eng
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关键词
Photodynamic therapy; Photofrin; dosimetry; singlet oxygen; microscopic model; macroscopic model;

机译：光动力疗法；感光素;剂量学单线态氧微观模型宏观模型;

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1. Macroscopic singlet oxygen modeling for dosimetry of Photofrin-mediated photodynamic therapy: an in-vivo study [J] . Haixia Qiu, Michele M. Kim, Rozhin Penjweini, Journal of biomedical optics . 2016,第8期

机译：宏观单线态氧模型用于Photofrin介导的光动力疗法剂量学的体内研究
2. A Comparison of Singlet Oxygen Explicit Dosimetry (SOED) and Singlet Oxygen Luminescence Dosimetry (SOLD) for Photofrin-Mediated Photodynamic Therapy [J] . Michele M. Kim, Rozhin Penjweini, Nathan R. Gemmell, Cancers . 2016,第12期

机译：单线态氧显式剂量法（SOED）和单线态氧发光剂量法（SOLD）用于光敏蛋白介导的光动力疗法的比较
3. SINGLET OXYGEN GENERATION FROM LIPOSOMES - A COMPARISON OF TIME-RESOLVED 1270 NM EMISSION WITH SINGLET-OXYGEN KINETICS CALCULATED FROM A ONE DIMENSIONAL MODEL OF SINGLET-OXYGEN DIFFUSION AND QUENCHING [J] . Fu YX., Kanofsky JR. Photochemistry and Photobiology: An International Journal . 1995,第4期

机译：脂质体产生的单氧-时间分辨的1270 NM排放与单氧扩散和淬灭的一维模型计算的单氧动力学的比较
4. A theoretical comparison of macroscopic and microscopic modeling of singlet oxygen during Photofrin and HPPH mediated-PDT [C] . Baochang Liu, Michele M. Kim, Timothy C. Zhu SPIE Conference on Optical Methods for Tumor Treatment and Detection: Mechanisms and Techniques in Photodynamic Therapy . 2013

机译：光荧土素和HPPH介导 - PDT术期单次氧气和微观造型的理论比较
5. Transport Theoretical Studies of Some Microscopic and Macroscopic Systems. [D] . Astwood, Alden Matthew. 2012

机译：某些微观和宏观系统的传输理论研究。
6. A theoretical comparison of macroscopic and microscopic modeling of singlet oxygen during Photofrin and HPPH mediated-PDT [O] . Baochang Liu, Michele M. Kim, Timothy C. Zhu -1

机译：光荧土素和HPPH介导 - PDT术期单次氧气和微观造型的理论比较
7. A theoretical comparison of macroscopic and microscopic modeling of singlet oxygen during Photofrin and HPPH mediated-PDT [O] . Baochang Liu, Michele M. Kim, Timothy C. Zhu 2013

机译：光荧土素和HPPH介导 - PDT术期单次氧气和微观造型的理论比较

A theoretical comparison of macroscopic and microscopic modeling of singlet oxygen during Photofrin and HPPH mediated-PDT

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