Rheological Enhancement of Artificial Sputum Medium

IF 5.8 4区 工程技术 Q1 MECHANICS Applied Rheology Pub Date : 2020-01-01 DOI:10.1515/arh-2020-0100
M. Tan, Yating Mao, T. Walker
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引用次数: 5

Abstract

Abstract This investigation proposes a synthetic biofluid, artificial sputum medium (ASM) and xanthan gum (XG), that mimics the mucus from a patient with cystic fibrosis, and investigates the rheological properties both macroscopically and microscopically. Macroscopic rheological characterization cannot address the heterogeneity or the behavior of particle transport inside the mucus. Microscopic rheology enables the characterization of the microenvironment by using microparticles as probes. The addition of XG to ASM provides a tunable parameter that enables the mechanical properties to be consistent with real mucus. Particles that were suspended in a media of ASM with XG displayed a subdiffusive behavior at short timescales with a diffusive exponent that decreases with an increase in concentration of XG. At long timescales, particles that were suspended in ASM+XG with a concentration of XG of 0.1% to 0.4% displayed diffusive behavior. While in more concentrated samples (0.5% and 1.0%), the particles were constrained inside local elastic “cages”. The microscopic moduli that were calculated showed consistently lower moduli than rotational rheometry. This discrepancy suggests that the solutions of XG have a hierarchical structure that better represents the weakly associated microstructure of mucus that is found in real sputum.
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人工痰液介质的流变增强
摘要:本研究提出了一种合成生物液,人工痰液培养基(ASM)和黄原胶(XG),模拟囊性纤维化患者的粘液,并从宏观和微观上研究了其流变学特性。宏观流变学表征不能解决黏液内颗粒运输的异质性或行为。微观流变学可以通过使用微粒作为探针来表征微环境。将XG添加到ASM中提供了一个可调参数,使机械性能与真实粘液一致。悬浮在含有XG的ASM介质中的颗粒在短时间尺度上表现为亚扩散行为,扩散指数随XG浓度的增加而降低。在长时间尺度上,悬浮在XG浓度为0.1% ~ 0.4%的ASM+XG中的颗粒表现出扩散行为。而在浓度更高的样品(0.5%和1.0%)中,颗粒被约束在局部弹性“笼子”内。微观模量计算结果显示,其模量始终低于旋转流变。这种差异表明,XG溶液具有层次结构,可以更好地代表在真实痰中发现的黏液的弱相关微观结构。
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来源期刊
Applied Rheology
Applied Rheology 物理-力学
CiteScore
3.00
自引率
5.60%
发文量
7
审稿时长
>12 weeks
期刊介绍: Applied Rheology is a peer-reviewed, open access, electronic journal devoted to the publication in the field of applied rheology. The journal provides the readers with free, instant, and permanent access to all content worldwide; and the authors with extensive promotion of published articles, long-time preservation, language-correction services, no space constraints and immediate publication.
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