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A Novel Surface Modification Strategy via Photopolymerized Poly-Sulfobetaine Methacrylate Coating to Prevent Bacterial Adhesion on Titanium Surfaces

Recent investigations on the anti-adhesive properties of polysulfobetaine methacrylate (pSBMA) coatings had shown promising potential as antifouling surfaces and have given the impetus for the present paper, where a pSBMA coating is applied via photopolymerization on a macro-roughened, sandblasted,...

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Autores principales: Gülses, Aydin, Lopar, Antonia, Es-Souni, Martha, Emmert, Marie, Es-Souni, Mona, Behrens, Eleonore, Naujokat, Hendrik, Liedtke, Kim Rouven, Acil, Yahya, Wiltfang, Jörg, Flörke, Christian
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8232804/
https://www.ncbi.nlm.nih.gov/pubmed/34203760
http://dx.doi.org/10.3390/ma14123303
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author Gülses, Aydin
Lopar, Antonia
Es-Souni, Martha
Emmert, Marie
Es-Souni, Mona
Behrens, Eleonore
Naujokat, Hendrik
Liedtke, Kim Rouven
Acil, Yahya
Wiltfang, Jörg
Flörke, Christian
author_facet Gülses, Aydin
Lopar, Antonia
Es-Souni, Martha
Emmert, Marie
Es-Souni, Mona
Behrens, Eleonore
Naujokat, Hendrik
Liedtke, Kim Rouven
Acil, Yahya
Wiltfang, Jörg
Flörke, Christian
author_sort Gülses, Aydin
collection PubMed
description Recent investigations on the anti-adhesive properties of polysulfobetaine methacrylate (pSBMA) coatings had shown promising potential as antifouling surfaces and have given the impetus for the present paper, where a pSBMA coating is applied via photopolymerization on a macro-roughened, sandblasted, and acid-etched titanium implant surface in order to assess its antifouling properties. Current emphasis is placed on how the coating is efficient against the adhesion of Enterococcus faecalis by quantitative assessment of colony forming units and qualitative investigation of fluorescence imaging and scanning electron microscopy. pSBMA coatings via photopolymerization of titanium surfaces seems to be a promising antiadhesion strategy, which should bring substantial benefits once certain aspects such as biodegradation and osseointegration were addressed. Additionally, commercial SAL-titanium substrates may be coated with the super-hydrophilic coating, appearing resistant to physiological salt concentrations and most importantly lowering E. faecalis colonization significantly, compared to titanium substrates in the as-received state. It is very likely that pSBMA coatings may also prevent the adhesion of other germs.
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spelling pubmed-82328042021-06-26 A Novel Surface Modification Strategy via Photopolymerized Poly-Sulfobetaine Methacrylate Coating to Prevent Bacterial Adhesion on Titanium Surfaces Gülses, Aydin Lopar, Antonia Es-Souni, Martha Emmert, Marie Es-Souni, Mona Behrens, Eleonore Naujokat, Hendrik Liedtke, Kim Rouven Acil, Yahya Wiltfang, Jörg Flörke, Christian Materials (Basel) Article Recent investigations on the anti-adhesive properties of polysulfobetaine methacrylate (pSBMA) coatings had shown promising potential as antifouling surfaces and have given the impetus for the present paper, where a pSBMA coating is applied via photopolymerization on a macro-roughened, sandblasted, and acid-etched titanium implant surface in order to assess its antifouling properties. Current emphasis is placed on how the coating is efficient against the adhesion of Enterococcus faecalis by quantitative assessment of colony forming units and qualitative investigation of fluorescence imaging and scanning electron microscopy. pSBMA coatings via photopolymerization of titanium surfaces seems to be a promising antiadhesion strategy, which should bring substantial benefits once certain aspects such as biodegradation and osseointegration were addressed. Additionally, commercial SAL-titanium substrates may be coated with the super-hydrophilic coating, appearing resistant to physiological salt concentrations and most importantly lowering E. faecalis colonization significantly, compared to titanium substrates in the as-received state. It is very likely that pSBMA coatings may also prevent the adhesion of other germs. MDPI 2021-06-15 /pmc/articles/PMC8232804/ /pubmed/34203760 http://dx.doi.org/10.3390/ma14123303 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Gülses, Aydin
Lopar, Antonia
Es-Souni, Martha
Emmert, Marie
Es-Souni, Mona
Behrens, Eleonore
Naujokat, Hendrik
Liedtke, Kim Rouven
Acil, Yahya
Wiltfang, Jörg
Flörke, Christian
A Novel Surface Modification Strategy via Photopolymerized Poly-Sulfobetaine Methacrylate Coating to Prevent Bacterial Adhesion on Titanium Surfaces
title A Novel Surface Modification Strategy via Photopolymerized Poly-Sulfobetaine Methacrylate Coating to Prevent Bacterial Adhesion on Titanium Surfaces
title_full A Novel Surface Modification Strategy via Photopolymerized Poly-Sulfobetaine Methacrylate Coating to Prevent Bacterial Adhesion on Titanium Surfaces
title_fullStr A Novel Surface Modification Strategy via Photopolymerized Poly-Sulfobetaine Methacrylate Coating to Prevent Bacterial Adhesion on Titanium Surfaces
title_full_unstemmed A Novel Surface Modification Strategy via Photopolymerized Poly-Sulfobetaine Methacrylate Coating to Prevent Bacterial Adhesion on Titanium Surfaces
title_short A Novel Surface Modification Strategy via Photopolymerized Poly-Sulfobetaine Methacrylate Coating to Prevent Bacterial Adhesion on Titanium Surfaces
title_sort novel surface modification strategy via photopolymerized poly-sulfobetaine methacrylate coating to prevent bacterial adhesion on titanium surfaces
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8232804/
https://www.ncbi.nlm.nih.gov/pubmed/34203760
http://dx.doi.org/10.3390/ma14123303
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