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Nanotoxicology Volume 12, 2018 - Issue 5
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Article

Improving colloidal stability of silica nanoparticles when stored in responsive gel: application and toxicity study

Giorgia GiovanniniMedway School of Pharmacy, University of Kent, Kent, UK;
,
Paul WarnckeDepartment of Pharmaceutical Technology, Friedrich-Schiller-University Jena, Institute of Pharmacy, Jena, Germany;
,
Dagmar FischerDepartment of Pharmaceutical Technology, Friedrich-Schiller-University Jena, Institute of Pharmacy, Jena, Germany;
,
Ondrej StranikLeibniz Institute of Photonic Technology, Jena, Germany
,
Andrew J. HallMedway School of Pharmacy, University of Kent, Kent, UK;
&
Vladimir GubalaMedway School of Pharmacy, University of Kent, Kent, UK; Correspondence[email protected]
ORCID Iconhttp://orcid.org/0000-0001-6301-3632
ORCID Icon
Pages 407-422 | Received 10 Nov 2017, Accepted 22 Mar 2018, Published online: 02 Apr 2018
 
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Abstract

When silica nanoparticles (SiNP) are stored in aqueous solution, even for few hours, they have a tendency to form agglomerates and therefore adapt inhomogeneous structures. Here we present a very practical method to store SiNP in responsive hydrogel. We have confirmed that SiNP kept in the responsive hydrogel do not undergo through undesirable morphological changes and while in storage they maintain their excellent colloidal stability. The effect of SiNP hollowing (i.e. dissolution of the core of the particles that leaves empty cavity inside) was significantly inhibited in the hydrogel, which is a critical feature for any nano-medical applications (e.g. controlled drug release). To demonstrate the applicability of the hydrogel-storing concept within a biologically relevant context, in this work we have evaluated the toxicological effects of the responsive SiNP-gel formulation in a model in vitro (human cell line U87GM and hemocompatibility using red blood cells) and ex ovo (hen’s egg test) experiments. Particles stored in the gel as well as the pure gel did not affect the hemocompatibility (hemolysis and erythrocyte aggregation) up to a concentration of 100 µg/mL. Furthermore, systemic injections into the blood circulation of the chick area vasculosa confirmed the biocompatibility in a more complex biological environment. All evaluated toxicological values (hemorrhage, thrombosis, vascular lysis, and lethality) were comparable with the negative control, and no differences in toxicological response could be observed between the SiNP stored in hydrogel and the control nanoparticles stored in the solution.

Acknowledgements

Giorgia Giovannini would like to thank University of Kent for providing her PhD fellowship. Ondrej Stranik would like to thank Dr. Henkel for providing the microfluidic chip.

Disclosure statement

The authors report no conflicts of interest. The authors alone are responsible for the contents and writing of the paper.

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