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Mathematical modeling approaches to describe the dynamics of protein adsorption at solid interfaces.
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TLDR
This review will briefly describe competitive protein adsorption process (known as 'Vroman effect') and provide a brief overview of some important mathematical modeling approaches to advance the knowledge of the dynamic Adsorption/desorption processes.About:
This article is published in Colloids and Surfaces B: Biointerfaces.The article was published on 2018-02-01. It has received 25 citations till now.read more
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Bioadhesion in the oral cavity and approaches for biofilm management by surface modifications.
TL;DR: Despite many promising approaches for modulation of biofilm formation in the oral cavity, the ubiquitous phenomenon of bioadsorption and adhesion pellicle formation in a challenging oral milieu masks surface properties and hampers low-fouling strategies.
Journal ArticleDOI
In vitro degradation of pure magnesium-the synergetic influences of glucose and albumin.
Wei Yan,Yi-Jie Lian,Zhi-Yuan Zhang,Mei-Qi Zeng,Zhao-Qi Zhang,Zheng-Zheng Yin,Lan-Yue Cui,Rong-Chang Zeng,Rong-Chang Zeng +8 more
TL;DR: The synergistic effect of glucose and protein restrained the adsorption of aggressive chloride ions to a certain extent, and thus inhibited the degradation of pure magnesium considerably.
Journal ArticleDOI
A numerical modelling of an amperometric-enzymatic based uric acid biosensor for GOUT arthritis diseases
P. Parthasarathy,S. Vivekanandan +1 more
TL;DR: This model depends on the arrangement of nonlinear reaction diffusion equations for Michaelis-Menten formalism that depicts the concentrations of substrate and product and the corresponding current response has been derived for all estimations of parameters utilizing the new perturbation technique.
Journal ArticleDOI
Formation of a protein corona around nanoparticles
TL;DR: The key concept here is that the formation of a protein corona depends on the interplay of competition of different proteins for the location near the nanoparticle–solution interface (Vroman effect) and denaturation at this interface.
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On the relationship between structure and catalytic effectiveness in solid surface-immobilized enzymes: Advances in methodology and the quest for a single-molecule perspective
Juan M. Bolivar,Bernd Nidetzky +1 more
TL;DR: Recent advances in surface-sensitive spectroscopic techniques that push boundaries for the determination of enzyme structure and orientation at the solid-liquid interface are reviewed.
References
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The adsorption of gases on plane surfaces of glass, mica and platinum.
TL;DR: In this article, the absorption index at the wave length of the band maximum was found to be proportional to the total concentration of metal at shorter wave lengths, however, deviations were observed, the absorption increasing more rapidly with concentration than Beers' law would demand.
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On the mechanisms of biocompatibility.
TL;DR: It is shown that, in the vast majority of circumstances, the sole requirement for biocompatibility in a medical device intended for long-term contact with the tissues of the human body is that the material shall do no harm to those tissues, achieved through chemical and biological inertness.
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Understanding protein adsorption phenomena at solid surfaces
TL;DR: In this review recent achievements and new perspectives on protein adsorption processes are comprehensively discussed and the main focus is put on commonly postulated mechanistic aspects and their translation into mathematical concepts and model descriptions.
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On the adsorption of proteins on solid surfaces, a common but very complicated phenomenon
TL;DR: In this article, the authors stress the importance and interesting aspect of protein adsorption on solid surfaces by reviewing findings that have been obtained in recent years, and stress that information on the conformation of the adsorbed protein as well as adsorbing characteristics is essential for a system's performance.
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Interaction of high molecular weight kininogen, factor XII, and fibrinogen in plasma at interfaces.
TL;DR: It is concluded that intact plasma will quickly replace the fibrinogen it has deposited on glass-like surfaces by high molecular weight kininogen and, to a smaller extent, by factor XII.