4.6 Article

Layer-by-layer self-assembly of minocycline-loaded chitosan/alginate multilayer on titanium substrates to inhibit biofilm formation

Journal

JOURNAL OF DENTISTRY
Volume 42, Issue 11, Pages 1464-1472

Publisher

ELSEVIER SCI LTD
DOI: 10.1016/j.jdent.2014.06.003

Keywords

Titanium implant; Biofilm; Layer-by-layer self-assembly; Antibacterial coating; Chitosan; Alginate

Funding

  1. National Science and Technology Support Project Foundation [2012BAI07B00]
  2. National 973 Project Foundation [2010CB944804]
  3. National Natural Science Foundation of China [81200817]
  4. Tianjin Research Program of Application Foundation and Advanced Technology (Youth Research Program) [12JCQNJC09200]

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Objectives: Bacteria adhesion and subsequent biofilm formation are primary causes of implant associated infection. The biofilm makes the bacteria highly resistant to the host defense and antimicrobial treatment. Antibacterial coatings on the surface of titanium implant can prevent biofilm formation effectively, but it is still a challenge to accomplish relatively long lasting antibacterial effects before wound healing or formation of biological seal. The purpose of our work was to construct antibacterial multilayer coatings loaded with minocycline on surface of Ti substrates using chitosan and alginate based on layer-by-layer (LbL) self-assembly technique. Methods: In this study, the surfaces of Ti substrates were first hydroxylated and then treated with 3-aminopropyltriethoxysilane (ATPES) to obtain amino-functionalized Ti substrates. Next, the precursor layer of chitosan was covalently conjugated to amino-functionalized Ti substrates. The following alternately coating alginate loaded with minocycline and chitosan onto the precursor layer of chitosan was carried out via LbL self-assembly technique to construct the multilayer coatings on Ti substrates. Results: The multilayer coatings loaded more minocycline and improved sustainability of minocycline release to kill planktonic and adherent bacteria. Moreover, surface charge and hydrophilicity of the coatings and antibacterial ability of chitosan itself also played roles in the antibacterial performance, which can keep the antibacterial ability of the multilayer coatings after minocycline release ceases. Conclusions: In conclusion, LbL self-assembly method provides a promising strategy to fabricate long-term antibacterial surfaces, which is especially effective in preventing implant associated infections in the early stage. Clinical significance: Loading minocycline on the surface of implants based on LbL self-assembly strategy can endow implants with sustained antibacterial property. This can inhabit the immediate colonization of bacteria onto the surface of implants in the process of dental implant surgery, and thereby prevents and reduces the occurrence of periimplantitis. (C) 2014 Elsevier Ltd. All rights reserved.

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