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Article Dans Une Revue Colloids and Interfaces Année : 2023

The Effect of copolymer-based nanoparticle composition (MEO2MA-OEGMA) on the release profile of doxorubicin in vitro

Eric Gaffet
Halima Alem
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Résumé

AbstractThe release of drugs from core/shell nanoparticles (NPs) is a crucial factor in ensuring high reproducibility, stability, and quality control. It serves as the scientific basis for the development of nanocarriers. Several factors, such as composition, composition ratio, ingredient interactions, and preparation methods, influence the drug release from these carrier systems. The objective of our study was to investigate and discuss the relationship between modifications of core/shell NPs as multifunctional drug delivery systems and the properties and kinetics of drug release using an in vitro drug release model. In this paper, we prepared four core/shell NPs consisting of a superparamagnetic iron oxide NPs (Fe3−δO4) core encapsulated by a biocompatible thermo-responsive copolymer, poly(2-(2-methoxy) ethyl methacrylate-oligo (ethylene glycol) methacrylate) or P(MEO2MAx-OEGMA100−x) (where x and 100 − x represented the molar fractions of MEO2MA and OEGMA, respectively), and loaded with doxorubicin (DOX). Colloidal behavior measurements in water and PBS as a function of temperature showed an optimization of the lower critical solution temperature (LCST) depending on the molar fractions of MEO2MA and OEGMA used to form each NPs. In vitro studies of doxorubicin release as a function of temperature demonstrated a high control of release based on the LCST. A temperature of approximately 45 °C for 60 h was sufficient to release 100% of the DOX loaded in the NPs for each sample. In conclusion, external stimuli can be used to modulate the drug release behavior. Core/shell NPs hold great promise as a technique for multifunctional drug delivery systems.

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hal-04352234 , version 1 (15-05-2024)

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Zied Ferjaoui, Eric Gaffet, Halima Alem. The Effect of copolymer-based nanoparticle composition (MEO2MA-OEGMA) on the release profile of doxorubicin in vitro. Colloids and Interfaces, 2023, 8 (1), pp.1. ⟨10.3390/colloids8010001⟩. ⟨hal-04352234⟩
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