作为孔弹性材料的生物膜

Ana Carpio, Elena Cebrian, Perfecto Vidal
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引用次数: 0

摘要

生物膜是包裹在自产聚合物基质中的细菌聚集体,它们附着在潮湿的表面,对化学品和抗生素具有极强的抵抗力。最近的实验表明,生物膜的结构是由生物膜内的弹性变形和液体运输相互作用决定的,是对细胞活动以及与周围环境相互作用的反应。我们提出了一个在琼脂表面扩散的三维生物膜弹性变形和液体传输的孔弹性模型。对于琼脂/生物膜界面,可结合使用冯-卡曼近似法;对于生物膜/空气界面,可结合使用薄膜近似法来描述边界的运动。细菌活动通过源项和残余应力为宏观连续模型提供信息,源项和残余应力可以是现象学的,也可以是从微观模型中推导出来的。我们基于对细菌活动的简单细胞自动描述,提出了一种估算此类残余应力结构的方法。受图像处理的启发,我们展示了一种过滤策略,它能有效地平滑由随机细胞自动机规则提供的粗糙张量,使我们能够将其插入宏观模型而不会产生数值不稳定性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Biofilms as poroelastic materials
Biofilms are bacterial aggregates encased in a self-produced polymeric matrix which attach to moist surfaces and are extremely resistant to chemicals and antibiotics. Recent experiments show that their structure is defined by the interplay of elastic deformations and liquid transport within the biofilm, in response to the cellular activity and the interaction with the surrounding environment. We propose a poroelastic model for elastic deformation and liquid transport in three dimensional biofilms spreading on agar surfaces. The motion of the boundaries can be described by the combined use of Von Karman type approximations for the agar/biofilm interface and thin film approximations for the biofilm/air interface. Bacterial activity informs the macroscopic continuous model through source terms and residual stresses, either phenomenological or derived from microscopic models. We present a procedure to estimate the structure of such residual stresses, based on a simple cellular automata description of bacterial activity. Inspired by image processing, we show that a filtering strategy effectively smooths out the rough tensors provided by the stochastic cellular automata rules, allowing us to insert them in the macroscopic model without numerical instability.
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