【摘 要】
:
The control over cell adhesion on bone implants is of crucial importance for the optimal osteointegration.In this study,we demonstrate the first time use of a mussel-inspired polymer,polydopamine(PDA)
【机 构】
:
Institute of Chemical Engineering and Light Industry,Guangdong University of Technology,Guangzhou 51
【出 处】
:
2015 Shanghai Thin Film Conference(2015上海薄膜国际会议)
论文部分内容阅读
The control over cell adhesion on bone implants is of crucial importance for the optimal osteointegration.In this study,we demonstrate the first time use of a mussel-inspired polymer,polydopamine(PDA),to achieve electroresponsive surface and studying cell-implant surface interactions in vitro in response to a weak potential [1].The ability of the described films to change its surface properties in response to an applied potential was investigated by observing the adhesion of MC3T3-E1 cells [2].The fluorescent micrographs in Figure 1a showed MC3T3-E1 cells did not spreading in the PDA coated titanium(Ti-PDA).Meanwhile,Ti-PDA-Oxidization(Figure 1 b),after a stimulus of constant voltage at +0.5V for 5min,induced a dense meshwork of peripheral actin filaments with more fibers appearing.Ti-PDA-Reduction(Figure 1c),at-0.1V for 5min,showed the actin filaments with only a few stress fibers appearing and extending further.These cells micrographs would promote osteogenic proliferation and differentiation on bone implant [3].
其他文献
It has been theoretically predicted that 1.4%biaxial tensile strain can convert Ge,which is compatible with Si CMOS technology,into a direct band-gap semiconductor [1] and increase the carrier mobilit
Germanium is a promising candidate to replace silicon in nanoelectronics due to its significantly higher electron and hole mobilities than silicon.However,the unstable germanium oxide formed at the in
Germanium tin(GeSn)is a group Ⅳ alloy with high carder mobility and tunable energy bandgap [1].Theory predicts that the bandgap has a crossover between indirect and direct bandgap transition at around
Biosensors based on ion-sensitive field-effect transistor (ISFET) have demonstrated a lot of advantages such as small size,fast response time,label-free detection [1-2].However,the accuracy and sensit
The solid reactions between Nickel and relaxed SiGe substrate are systematic investigated with different Al interlayer thicknesses.The morphology,composition and sheet resistance of the germanosilicid
To lower the power consumption of nanometer devices new materials and novel device structures are required.High mobility channel materials are essential for the low power CMOS.For energy efficient dev
Hydroxyapatite nano-rods/fibers patterned oxides-based coatings were fabricated on titanium,zirconium,tantalum and magnesium,respectively,using a hybrid approach of microarc oxidation and hydrothermal
Although titanium(Ti)based medical devices have been used clinically for more than 30 years,there are still weaknesses for them that need to be resolved.The lacks of osteoconduction and osteointegrati
Superhydrophilic surface was achieved by plasma oxidation on SLA surface in the paper,which is deemed to highly enhance osseointegration between dental implant and bone.Titanium oxide surface was achi
Titanium-based alloys are commonly used in orthopedic implants because of their desirable mechanical strength,corrosion resistance,and biocompatibility.Bacterial infection often induces the implant fa