A reaction-diffusion model of the receptor-toxin-antibody interaction


<p>Abstract</p> <p>Background</p> <p>It was recently shown that the treatment effect of an antibody can be described by a consolidated parameter which includes the reaction rates of the receptor-toxin-antibody kinetics and the relative concentration of reacting species. As a result, any given value of this parameter determines an associated range of antibody kinetic properties and its relative concentration in order to achieve a desirable therapeutic effect. In the current study we generalize the existing kinetic model by explicitly taking into account the diffusion fluxes of the species.</p> <p>Results</p> <p>A refined model of receptor-toxin-antibody (RTA) interaction is studied numerically. The protective properties of an antibody against a given toxin are evaluated for a spherical cell placed into a toxin-antibody solution. The selection of parameters for numerical simulation approximately corresponds to the practically relevant values reported in the literature with the significant ranges in variation to allow demonstration of different regimes of intracellular transport.</p> <p>Conclusions</p> <p>The proposed refinement of the RTA model may become important for the consistent evaluation of protective potential of an antibody and for the estimation of the time period during which the application of this antibody becomes the most effective. It can be a useful tool for <it>in vitro </it>selection of potential protective antibodies for progression to <it>in vivo </it>evaluation.</p

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oai:doaj.org/article:376d7a5d6df64f11909c113cd43dcb50Last time updated on 12/18/2014

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