Antibacterial activity of TiO2 nanotube arrays on periodontal pathogens before and after loaded with minocycline hydrochloride / 中国病理生理杂志

AIM:To investigate the effects of titanium dioxide(TiO2)nanotube arrays on the early adhesion behavior of Porphyromonas gingivalis(Pg),Tannerella forsythia(Tf)and Actinobacillus actinomycetemcomitans(Aa)be-fore and after loaded with minocycline hydrochloride(MN).METHODS: TiO2nanotube arrays were prepared by ano-dization and loaded with MN.Titanium slices were divided into 3 groups according to different treatment methods: pure polishing titanium(Ti)group,TiO2nanotube titanium(TiO2)group, and MN(120 μg)TiO2nanotube titanium(MN TiO2)group.The antibacterial properties of the titanium tablets were evaluated by the bacteriostasis test.RESULTS:The Ti had no antibacterial activity.The antibacterial activity of TiO 2to Aa,Pg and Tf was poor,with only about 20%of anti-bacterial rate after 4 h.After loaded with MN,its antibacterial activity was enhanced,and the antibacterial rate was up to 77%after 4 h.CONCLUSION: No antibacterial activity in the Ti group was observed.If TiO2nanotube arrays were formed on the surface and MN was loaded,the antibacterial activity on periodontal pathogens was stronger.

Construction and characterization of an antibacterial peptide controlled release coating for percutaneous implant / 实用口腔医学杂志

Objective: To construct an antibacterial peptide controlled release coating for percutaneous implant and to study its release and antibacterial properties. Methods: TiO2 nanotube specimens were prepared by anodizing. PDLLA was used as the retarder and HHC-36 as the antibacterial peptide, PDLLA-HHC-36 were loaded on TiO2 nanotube surface by solvent-casting technology. The surface form of the specimens was observed under SEM. Sustained release was analyzed by the release curves and the antibacterial effect was examined with inhibition zone test. Results: TiO2 nanotube specimens with 80-120 nm diameter were fabricated, the drug coating was observed under SEM. The drug loaded specimens showed 15 days sustained release in vitro and inhibition zone about 15 mm in diameter was found in the test for at least 10 days. Conclusion: TiO2 nanotube specimens with PDLLA-HHC-36 controlled release coating has sustained-release and antibacterial properties.

Different patterns of titanium surface nanocrystallization and drug load aimed at establishing orthopedic implants with antimicrobial property / 上海交通大学学报（医学版）

Titanium and titanium alloys,which are bio-inert materials and have excellent mechanical properties,have broad applications in clinic.On the one hand,TiO2 nanotube can effectively enhance the osteogenic differentiation of bone marrow mesenchymal stem cells and have antimicrobial abilities in some extent;On the other hand,TiO2 nanotube,an outstanding drug-carrier,could effectively prevent and treat bone implant-related infection by loading antimicrobial agents.By means of modifying the nanotube coating,improving the efficiency of drug loading and ameliorating release profile,the ideal antimicrobial property could be achieved.Strategies for drug release can be divided into two approaches,namely mechanical release and intellectual release.Mechanical release could fortify the antibacterial ability of coating,but the unicity and uncontrollability of agents diluting need to be resolved.By contrast,intellectual agents release has the advantages of multiple drug species,controllable release volume and programmed trigger condition.This article reviews the current and potential methods of antibacterial substances loading and release from TiO2 nanotube,and expects to provide the orientation for future direction of controllable and intellectual nanotube drug release.