Mathematical Models and Numerical Simulation for Dynamic Evolutions of Cancer and Immune Cells

IF 1 4区数学

Applied Mathematics-A Journal of Chinese Universities Series B Pub Date : 2018-06-06 DOI:10.4236/AM.2018.96040

B. O. Oyelami

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引用次数: 2

Abstract

Cancer is a major public health problem worldwide and finding a total cure or eradication of the disease has been the expectations of medical researchers and medical practitioners in the recent times. In this paper, invasion of normal cells by carcinogens is considered. The purpose of the research is to study the dynamic evolutions of cancer and immune cells with the view finding most effective strategic way to control or eradicate cancer growth in human beings. We proposed five growths and mitigate models for benign and malignant cancer which are coupled ordinary differential equations and partial differential equations and Numerical simulations are made for the models. Analytic and Numerical solutions and sensitivity analysis of the models to parameters are obtained. It is found that the benign and malignant cancer cells displayed out of control growth and hence unstable in nature and the immune cells depreciated to the point of immune collapse. By the use of energy function it is established that staving of cancer cells of oxygen or use of drugs are strategic ways of combating cancer disease. Moreover, if the cancer cells are starved of basic nutrients or some basic enzymes inhibited it is expected that similar effect can also be achieved. The starvation of cancer cells should focus on oxygen, nutrients and vital enzymes. However, it is hoped that drugs developers and bioengineers will come up with means to achieve the starvation strategies to combat cancer disease.

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癌症和免疫细胞动态进化的数学模型和数值模拟

癌症是世界范围内的一个主要公共卫生问题，找到完全治愈或根除这种疾病一直是医学研究人员和医疗从业者的期望。本文考虑了致癌物对正常细胞的侵袭。这项研究的目的是研究癌症和免疫细胞的动态进化，以期找到控制或根除人类癌症生长的最有效的战略方法。提出了五种常微分方程和偏微分方程耦合的良恶性肿瘤生长和缓解模型，并对模型进行了数值模拟。得到了模型的解析解和数值解以及模型对参数的敏感性分析。发现良恶性癌细胞生长失控，性质不稳定，免疫细胞贬值到免疫崩溃的地步。通过使用能量功能，可以确定切断癌细胞的氧气或使用药物是对抗癌症疾病的战略方法。此外，如果癌细胞缺乏基本营养物质或某些基本酶受到抑制，预计也可以达到类似的效果。癌细胞的饥饿应该集中在氧气、营养和重要的酶上。然而，希望药物开发人员和生物工程师能够找到方法，实现对抗癌症的饥饿策略。

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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来源期刊

Applied Mathematics-A Journal of Chinese Universities Series B MATHEMATICS, APPLIED-

自引率

10.00%

发文量

期刊介绍： Applied Mathematics promotes the integration of mathematics with other scientific disciplines, expanding its fields of study and promoting the development of relevant interdisciplinary subjects. The journal mainly publishes original research papers that apply mathematical concepts, theories and methods to other subjects such as physics, chemistry, biology, information science, energy, environmental science, economics, and finance. In addition, it also reports the latest developments and trends in which mathematics interacts with other disciplines. Readers include professors and students, professionals in applied mathematics, and engineers at research institutes and in industry. Applied Mathematics - A Journal of Chinese Universities has been an English-language quarterly since 1993. The English edition, abbreviated as Series B, has different contents than this Chinese edition, Series A.