癌症化疗的数学模型:药代动力学和细胞动力学考虑。

Cancer chemotherapy reports Pub Date : 1975-07-01
S Chuang
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引用次数: 0

摘要

本文对肿瘤化疗系统的药代动力学和细胞动力学模型进行了理论研究。数学分析是根据DeVita的正常组织和肿瘤组织的细胞动力学与抗肿瘤药物的药代动力学之间的关系的方案推导出的改进程序,以设计最佳的剂量和治疗方案。在该方案中,药物动力学模型和肿瘤部位的细胞-药物相互作用被纳入细胞周期动力学模型,形成癌症化疗模型系统。在关于静止细胞机制的不同假设下,提出了三种细胞周期动力学模型,而每个肿瘤块由增殖(由G1、S、G2和M四个周期阶段组成)、静止(Go)和非分裂(D,死亡)状态的细胞组成。已经编制了一种算法和计算机程序,用于模拟预定治疗期间的肿瘤种群。通过适当选择细胞-药物相互作用的表达,该程序能够在使用不同类型的抗癌药物(如细胞周期阶段特异性、细胞周期特异性、细胞周期特异性或细胞周期非特异性药物)进行预定治疗期间模拟肿瘤行为。对L1210-ara-C治疗系统进行了初步研究,以演示计算机模拟程序。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Mathematic models for cancer chemotherapy: pharmacokinetic and cell kinetic considerations.

This paper presents a theoretic study of pharmacokinetic and cell kinetic models for cancer chemotherapeutic systems. The mathematic analysis is based on a modified procedure deduced from DeVita's scheme of the relationship between the cellular kinetics of normal and tumor tissues and the pharmacokinetics of antitumor agents for designing an optimal dose and schedule for cancer treatment. In this scheme pharmacokinetic models and cell-drug interactions at the tumor site are incorporated into the cell cycle kinetic models to form the cancer chemotherapeutic model systems. Three cell cycle kinetic models are presented under alternative hypotheses concerning the mechanism of the resting cells, while each tumor mass is comprised of cells in proliferating (consisting of the four cycle phases G1, S, G2, and M), resting (Go), and non dividing (D, dead) states. An algorithm and a computer program for simulating the tumor populations during scheduled treatments have been prepared. By a suitable selection of expressions for cell-drug interactions, the program is able to simulate tumor behavior during scheduled treatments with different classes of anticancer agent such as cell cycle phase-specific, cell cycle-specific, or cell cycle-specific, or cell cycle-nonspecific drugs. A preliminary study of the L1210-ara-C therapeutic system is included to demonstrate the computer simulation procedures.

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