Fabrication and biological effect investigation of the antibacterial drug delivery system with PEG-hydrogel and gentamicin-loaded-CSt on titanium surface / 中华骨科杂志

ABSTRACT

Objective To fabricate an antibacterial controlled drug delivery system with PEG-hydrogel and gentamicin-loaded-CSt on titanium surface,and to investigate its surface characteristics,swelling behavior,drug release behavior in vitro,antiinfection performance in vivo,and tissue biocompatibility.Methods Cross-linked starch (CSt) was synthesized first and then CSt was loaded with gentamicin (GEN) as a carrier (GEN@CSt),then 4-arm-polyethylene glycol (PEG) was added to it which was mixed by ultrasound.The surface of titanium (Ti) was covered with a layer of poly dopamine (PDA).The drug-loaded hydrogel was fixed to the titanium surface,subsequently capped by poly lactic-co-glycolic acid (PLGA) membranes,and then the Ti-PDA-PEG (GEN@CSt)-PLGA composite coating was fabricated finally.Surface morphology of the system was observed,while the swelling behavior was characterized;release behavior of the composite coating was detected;the bacteriostatic experiments were carried out with staphylococcus aureus (SAU),staphylococcus epidermidis (SEP) and escherichia coli (ECO) in vitro.The animal models of infected bone defect was established in 36 New Zealand white rabbits.These animals were randomly divided into three groups.Group 1 animals were implanted with drug-loaded composite coatings.Group 2 animals were implanted with drug-free composite coatings.Group 3 animals were implanted with bare titanium rods.The infection data were collected periodically to carry out antiinfection experiments in vivo.Another 12 rabbits were divided into the experimental group and the control group randomly.Biocompatibility of the materials was observed by histopathology after implantation of the corresponding materials into the femoral condyle.Results The composite coating adhered to the titanium surface firmly,presenting a smooth and translucent shape.The ratio of CSt/PEG affects swelling behavior varied,starch-free gels maintained an equilibrium swelling of 7.4,after the ratio reached 1 ∶ 1,the equilibrium swelling ratio remained at 3.0.In-vitro the release rate of the first 8 h was fast,and the cumulative release amount accounted for 83％ of the total in the first 7 days,lasting more than 13 d.In vitro antibacterial test,the average diameter of the inhibition ring was 3.6±0.13 cm (SAU),3.4±0.11 cm (SEP),3.7±0.10 cm (ECO).In-vivo anti-infection experiment,the infection situation of the group 1 was better than the control groups 2 and 3.The pathological results indicated that inflammatory reaction in the experimental group was basically the same as the control group.Conclusion The study successfully fabricated the antibacterial controlled drug delivery system with PEG-hydrogel and gentamicin-loaded-CSt on titanium surface.The system has a reasonable drug release behavior,and effectively inhibited the growth of bacteria in vivo and in vitro.It also has good biocompatibility to stand a promising strategy to improve the orthopedics anti-infection.