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Synthesis and Characterization of a Biocompatible Nanoplatform Based on Silica-Embedded SPIONs Functionalized with Polydopamine

2022; American Chemical Society; Volume: 9; Issue: 1 Linguagem: Inglês

10.1021/acsbiomaterials.2c00946

2373-9878

Miriam Romano, Manuel Antonio González-Gómez, Pamela Santonicola, Noemi Aloi, Svenja Offer, Jana Pantzke, Samuele Raccosta, Valeria Longo, Alessandro Surpi, Silvia Alacqua, Giuseppina Zampi, V. Dediu, Bernhard Michalke, Ralf Zimmerman, Mauro Manno, Yolanda Piñeiro, Paolo Colombo, Elia Di Schiavi, J. Rivas, Paolo Bergese, Sebastiano Di Bucchianico,

Graphene and Nanomaterials Applications

Superparamagnetic iron oxide nanoparticles (SPIONs) have gained increasing interest in nanomedicine, but most of those that have entered the clinical trials have been withdrawn due to toxicity concerns. Therefore, there is an urgent need to design low-risk and biocompatible SPION formulations. In this work, we present an original safe-by-design nanoplatform made of silica nanoparticles loaded with SPIONs and decorated with polydopamine (SPIONs@SiO2-PDA) and the study of its biocompatibility performance by an ad hoc thorough in vitro to in vivo nanotoxicological methodology. The results indicate that the SPIONs@SiO2-PDA have excellent colloidal stability in serum-supplemented culture media, even after long-term (24 h) exposure, showing no cytotoxic or genotoxic effects in vitro and ex vivo. Physiological responses, evaluated in vivo using Caenorhabditis elegans as the animal model, showed no impact on fertility and embryonic viability, induction of an oxidative stress response, and a mild impact on animal locomotion. These tests indicate that the synergistic combination of the silica matrix and PDA coating we developed effectively protects the SPIONs, providing enhanced colloidal stability and excellent biocompatibility.