@article{article_679275, title={Biofilm Formation on Titanium Implants, 24h in situ}, journal={Journal of International Dental Sciences (Uluslararası Diş Hekimliği Bilimleri Dergisi)}, pages={90–99}, year={2018}, DOI={10.21306/jids.2018.134}, author={Erol, Arzu}, keywords={Titanyum,Asit pürüzlendirilmiş,Cilalı,Biyofilm,in situ}, abstract={Aim: Evaluation of the bacteria adhesion on polished and acid etched titanium surfaces at 24 h in situ biofilm formation. According to the nature of Ti implant surface; determine the amount of surface adhesion of microorganisms and evaluate the effect of surface roughness.Material and Method: A total of 2 different type of Titanium specimens as polished and acid etched surface in nine patients whose healthy that man and woman, aged between 24 and 71 years, were included in our study. All subjects had been on their regular daily diet with no excessive consumption of polyphenolic beverages and foods and had no history of smoking or alcohol. The surface were evaluated by Scannig electron microscopy and Fluorescence microscopy. Results: Ti surface showed that acid treated surface provide enhanced bacterial adhesion and growth, polished surface decreased enhanced bacterial adhesion and growth 24 in situ which can be interesting for various applications in medical fields as well as in biosciences. At the point when contrast and in vitro and in situ research facility models for explore biofilm arrangement, in situ model is the best as the effect of concoction operators on biofilm advancement.Conclusion: The modifications of micro topography contribute to an increase in surface area, especially surface roughness. This study has shown that surface roughness improves correctly with bacterial adhesion. Significant surface roughness on Ti implant played an important role in providing effective surface for bacteria-implant contact, biofilm formation, despite having good mechanical properties}, number={2}, publisher={Zonguldak Bülent Ecevit Üniversitesi}