Gallium‐doped zirconia coatings modulate microbiological outcomes in dental implant surfaces

Author:

D'Agostino Agnese12ORCID,Misiti Giulia2,Scalia Alessandro Calogero3,Pavarini Matteo2,Fiorati Andrea12,Cochis Andrea3,Rimondini Lia3,Borrini Vittoria Federica4,Manfredi Marcello4,Andena Luca2,De Nardo Luigi12,Chiesa Roberto12

Affiliation:

1. National Interuniversity Consortium of Materials Science and Technology (INSTM), local unit Politecnico di Milano Milan Lombardy Italy

2. Department of Chemistry, Materials and Chemical Engineering “G. Natta” Politecnico di Milano Milan Lombardy Italy

3. Department of Health Sciences Università del Piemonte Orientale Novara Piedmont Italy

4. Department of Translational Medicine Università del Piemonte Orientale Novara Piedmont Italy

Abstract

AbstractDespite the significant recent advances in manufacturing materials supporting advanced dental therapies, peri‐implantitis still represents a severe complication in dental implantology. Herein, a sol–gel process is proposed to easily deposit antibacterial zirconia coatings onto bulk zirconia, material, which is becoming very popular for the manufacturing of abutments. The coatings' physicochemical properties were analyzed through x‐ray diffraction and scanning electron microscopy‐energy‐dispersive x‐ray spectroscopy investigations, while their stability and wettability were assessed by microscratch testing and static contact angle measurements. Uniform gallium‐doped tetragonal zirconia coatings were obtained, featuring optimal mechanical stability and a hydrophilic behavior. The biological investigations pointed out that gallium‐doped zirconia coatings: (i) displayed full cytocompatibility toward human gingival fibroblasts; (ii) exhibited significant antimicrobial activity against the Aggregatibacter actinomycetemcomitans pathogen; (iii) were able to preserve the commensal Streptococcus salivarius. Furthermore, the proteomic analyses revealed that the presence of Ga did not impair the normal oral microbiota. Still, interestingly, it decreased by 17% the presence of Fusobacterium nucleatum, a gram‐negative, strictly anaerobic bacteria that is naturally present in the gastrointestinal tract. Therefore, this work can provide a valuable starting point for the development of coatings aimed at easily improving zirconia dental implants' performance.

Publisher

Wiley

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