Kalyoncuoğlu, Ülkü TuğbaYılmaz, BengiGüngör, SerapEvis, ZaferUyar, PembegülAkça, GülçinKansu, Gülay2020-03-262020-03-2620151580-29491580-3414https://dx.doi.org/10.17222/mit.2014.239https://hdl.handle.net/20.500.12395/32135The aim of this study was to obtain a biocompatible and antimicrobial implant surface by coating Ti6Al4V with chitosan which can be used to create a smooth transmucosal region for a faster and better wound healing and an increased bioactivity. Ti6Al4V plates were first abraded and ultrasonically cleaned and then coated with chitosan. In order to simulate the conditions of an oral environment, a group of coated plates were treated in a thermocycle apparatus. The coatings were evaluated with SEM, EDS, XRD and FTIR spectroscopy. The fibroblastic cell behavior was determined using HGF-1 cells. P. gingivalis was used to assess the effectiveness of chitosan as an antimicrobial coating. It can be said that the Ti6Al4V plates were successfully coated with chitosan, indicated by the presence of the C, H and O elements in the EDS results. There were no significant differences between the XRD patterns of the coated and uncoated plates; however, the characteristic bands of chitosan were observed in the FTIR patterns of both the coated and aged samples. The fibroblast-cell attachment and proliferation were enhanced while the bacterial proliferation was inhibited by the chitosan coating. Chitosan was shown to be a biologically useful material that can be used as the coating material for transmucosal regions of dental implants.en10.17222/mit.2014.239info:eu-repo/semantics/openAccesschitosan coatingdental implantsTi6Al4VHGF-1P. gingivalisArticle496925931Q3WOS:000366552500012Q4