Oscillations in a Spatial Oncolytic Virus Model.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Arwa Abdulla Baabdulla, Thomas Hillen
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引用次数: 0

Abstract

Virotherapy treatment is a new and promising target therapy that selectively attacks cancer cells without harming normal cells. Mathematical models of oncolytic viruses have shown predator-prey like oscillatory patterns as result of an underlying Hopf bifurcation. In a spatial context, these oscillations can lead to different spatio-temporal phenomena such as hollow-ring patterns, target patterns, and dispersed patterns. In this paper we continue the systematic analysis of these spatial oscillations and discuss their relevance in the clinical context. We consider a bifurcation analysis of a spatially explicit reaction-diffusion model to find the above mentioned spatio-temporal virus infection patterns. The desired pattern for tumor eradication is the hollow ring pattern and we find exact conditions for its occurrence. Moreover, we derive the minimal speed of travelling invasion waves for the cancer and for the oncolytic virus. Our numerical simulations in 2-D reveal complex spatial interactions of the virus infection and a new phenomenon of a periodic peak splitting. An effect that we cannot explain with our current methods.

Abstract Image

空间溶瘤病毒模型中的振荡。
病毒疗法是一种新型的、前景广阔的靶向疗法,可选择性地攻击癌细胞,而不伤害正常细胞。溶瘤病毒的数学模型显示出类似捕食者-猎物的振荡模式,这是潜在霍普夫分岔的结果。在空间背景下,这些振荡可导致不同的时空现象,如空心环模式、目标模式和分散模式。在本文中,我们将继续对这些空间振荡进行系统分析,并讨论它们与临床的相关性。我们考虑对空间显式反应-扩散模型进行分岔分析,以找到上述时空病毒感染模式。消除肿瘤的理想模式是空心环模式,我们找到了其发生的确切条件。此外,我们还推导出了癌症和溶瘤病毒侵袭波的最小传播速度。我们的二维数值模拟揭示了病毒感染的复杂空间相互作用以及周期性峰值分裂的新现象。我们目前的方法无法解释这种效应。
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
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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