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Original scientific paper

In-silico Modulation of the Irinotecan Release from a Functionalized MCM-41 Support

I. Luta ; Department of Chemical Engineering, University Politehnica of Bucharest, Romania
G. Maria orcid id orcid.org/0000-0003-3650-676X ; Department of Chemical Engineering, University Politehnica of Bucharest, Romania


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Abstract

The release rate of a drug molecule from a porous support depends on a large number of factors, including support characteristics, surface functionalization (procedure and linker type), drug features, biological receptor fluid characteristics, and release conditions.
Model-based (in-silico) modulation of the release rate through influential parameters can help in designing an optimized delivery system for a specific drug action. To prevent biased predictions, a dynamic mechanism-based model was adopted, by including
kinetic terms related to surface adsorption-desorption, diffusion in pores, and external diffusion of the drug to the body fluid. Exemplification is made for the case of a functionalized silica MCM-41 support with a tunable pore size distribution and functionalization possibilities with hydrophobic (triethoxyvinylsilane, VTES) or hydrophilic (3-aminopropyl triethoxysilane, APTES) linkers. Variation of several structural parameters, referring to the average pore size, initial drug load, and linker proportion on a bi-functionalized support, pointed out the strong nonlinear relationships between the process
variables and the release rate.

Keywords

Drug delivery; in-silico design; irinotecan release; MCM-41; bi-functionalization; kinetic modelling

Hrčak ID:

93933

URI

https://hrcak.srce.hr/93933

Publication date:

19.12.2012.

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