Tian‐Xia Zheng scite author profile

Titanium (Ti) and Ti alloys are widely used biomaterials, but they lack osteogenic capability for rapid bone integration. To improve osseointegration of Ti implants, TiO2 nanotubes were prepared using the anodizing oxidation technique, and strontium (Sr) combined with icariin (ICA) was loaded on TiO2 nanotube coatings. Cell adhesion and proliferation of MC3T3-E1 cells, alkaline phosphatase (ALP) activity, mineralization of extracellular matrix, and bone formation around titanium implants in ovariectomized rats, were examined separately. The results showed that compared with pure Ti, TiO2 and Sr-loaded TiO2 coatings, the coatings loaded with both Sr and ICA showed better effect on cell adhesion and proliferation, higher ALP activity and more red-stained mineralized nodules. Furthermore, more bone was formed around implants loaded with both Sr and ICA in osteoporotic rats. Therefore, coating with Sr and ICA is valuable for clinical application to strengthen the osseointegration of titanium implants, especially in osteoporotic patients.

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Classification and research progress of implant surface antimicrobial techniques

Zheng

et al. 2022

Journal of Dental Sciences

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Due to the good biocompatibility and ideal mechanical property, titanium implants have been widely used in dental clinic and orthopedic surgery. However, bacteria induced infection can cause per-implant inflammation and decrease the success rate of implant surgery. Therefore, developing antimicrobial techniques is essential to successful application of titanium implants. Many surface antimicrobial techniques, including antimicrobial coating and surface modifications, have been explored and they always exert antimicrobial effect by reducing bacterial adhesion, inhibiting their metabolism, or destructing cell structure. In this paper, different surface antimicrobial techniques and their recent research progress are reviewed to provide a brief insight on this area.

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The effect of strontium content on physicochemical and osteogenic property of Sr/Ag‐containing TiO₂ microporous coatings

et al. 2022

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Strontium (Sr) is the most common element introduced into TiO 2 coatings to strengthen the osteogenic property of titanium implants. However, the optimal Sr content and its effect on osteogenic and physicochemical properties of the coatings need to be clarified. In the current study, TiO 2 microporous coatings with different contents of Sr (9.64-21.25 wt %) and silver (Ag) (0.38-0.75 wt %) were prepared via micro-arc oxidation technique. Sr contents did not change physicochemical properties of the coatings, including surface microstructure, micropore size and distribution, phase composition, roughness and hydrophilicity. Meanwhile, higher Sr contents (18.23-21.25 wt %) improved cytocompatibility, proliferation and alkaline phosphatase (ALP) activity of preosteoblasts, even the coatings underwent 30 days' PBS immersion. Furthermore, higher Sr contents facilitated preosteoblast growth and spreading, which are essential for their proliferation and osteogenic differentiation.Therefore, it is promising to incorporate higher Sr content (18.23-21.25 wt %) within TiO 2 microporous coatings to improve their osteogenic capability.

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A Review of the research methods and progress of biocompatibility evaluation of root canal sealers

et al. 2022

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The function of root canal sealer was to achieve an appropriate three‐dimensional filling effect by filling the root canal and some irregular lumen, thereby inhibiting the residual bacteria. There were many types of sealers, but research to find the most suitable ones was still ongoing. In recent years, researchers had continuously improved the performance of sealers by developing new sealers or adding active ingredients to the sealers. However, most sealers exhibit varying degrees of cytotoxicity and tissue responses, which affect clinical therapy efficacy. This review describes different technical approaches, and recent research progress in the biocompatibility evaluation of root canal sealers and provides brief insights into this field by summarising the performance studies of different root canal sealers.

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Osteogenic and long-term antibacterial properties of Sr/Ag-containing TiO₂ microporous coating in vitro and in vivo

et al. 2023

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Tian‐Xia Zheng

Osteogenic capability of strontium and icariin-loaded TiO₂ nanotube coatings in vitro and in osteoporotic rats

Classification and research progress of implant surface antimicrobial techniques

The effect of strontium content on physicochemical and osteogenic property of Sr/Ag‐containing TiO₂ microporous coatings

A Review of the research methods and progress of biocompatibility evaluation of root canal sealers

Osteogenic and long-term antibacterial properties of Sr/Ag-containing TiO₂ microporous coating in vitro and in vivo

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Tian‐Xia Zheng

Osteogenic capability of strontium and icariin-loaded TiO2 nanotube coatings in vitro and in osteoporotic rats

Classification and research progress of implant surface antimicrobial techniques

The effect of strontium content on physicochemical and osteogenic property of Sr/Ag‐containing TiO2 microporous coatings

A Review of the research methods and progress of biocompatibility evaluation of root canal sealers

Osteogenic and long-term antibacterial properties of Sr/Ag-containing TiO2 microporous coating in vitro and in vivo

Contact Info

Product

Resources

About

Osteogenic capability of strontium and icariin-loaded TiO₂ nanotube coatings in vitro and in osteoporotic rats

The effect of strontium content on physicochemical and osteogenic property of Sr/Ag‐containing TiO₂ microporous coatings

Osteogenic and long-term antibacterial properties of Sr/Ag-containing TiO₂ microporous coating in vitro and in vivo