Yongbin Jing scite author profile

Designing the new microstructure is an effective way to accelerate the biomedical application of magnesium (Mg) alloys. In this study, a novel Mg–8Er–1Zn alloy with profuse nano-spaced basal plane stacking faults (SFs) was prepared by combined processes of direct-chill semi-continuous casting, heat-treatment and hot-extrusion. The formation of SFs made the alloy possess outstanding comprehensive performance as the biodegradable implant material. The ultimate tensile strength (UTS: 318 MPa), tensile yield strength (TYS: 207 MPa) and elongation (21%) of the alloy with SFs were superior to those of most reported degradable Mg-based alloys. This new alloy showed acceptable biotoxicity and degradation rate (0.34 mm/year), and the latter could be further slowed down through optimizing the microstructure. Most amazing of all, the uniquely uniform in vitro/vivo corrosion behavior was obtained due to the formation of SFs. Accordingly we proposed an original corrosion mechanism for the novel Mg alloy with SFs. The present study opens a new horizon for developing new Mg-based biomaterials with highly desirable performances.

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Aquaporin 3 protects against lumbar intervertebral disc degeneration via the Wnt/β-catenin pathway

Xie

Jing

Xia

et al. 2016

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Previous studies have demonstrated that the expression of aquaporin 3 (AQP3), a water channel which promotes glycerol permeability and water transport across cell membranes, is reduced in degenerative lumbar intervertebral disc (IVD) tissues. However, the role of AQP3 in the pathogenesis of IVD degeneration has not recieved much scholarly attention. The objective of the present study was to investigate the effect of AQP3 on cell proliferation and extracellular matrix (ECM) degradation in human nucleus pulposus cells (hNPCs) using gain-of-function and loss-of-function experiments, and to determine whether Wnt/β-catenin signaling is involved in the effect of AQP3 on IVD degeneration. hNPCs were transfected with the AQP3-pcDNA3.1 plasmid or AQP3 siRNA to overexpress or suppress AQP3. An MTT assay was performed to determine cell proliferation, and we found that AQP3 promoted hNPC proliferation. The expression of aggrecan, a disintegrin and metalloproteinase with thrombospondin motifs (ADAMTS)4 and ADAMTS5 was detected using western blot analysis, to examine the effect of AQP3 on ECM degradation in hNPCs. The results revealed that AQP3 inhibited ECM degradation in hNPCs. In addition, we found that Wnt/β-catenin signaling was suppressed by AQP3. However, the effect of AQP3 on hNPC proliferation and ECM degradation was reversed by treatment with lithium chloride, a known activator of Wnt/β‑catenin signaling. In conclusion, using in vitro and in vivo tests, we have reported for the first time, to the best of our knowledge, that AQP3 exerts protective effects against IVD degeneration, and these are effected, at least partially, through the inhibition of Wnt/β-catenin signaling.

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Formation of stacking faults for improving the performance of biodegradable Mg–Ho–Zn alloy

Zhang

et al. 2014

Materials Letters

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Microstructure, mechanical and damping properties of Mg–Er–Gd–Zn alloy reinforced with stacking faults

Zhang

Liu

et al. 2015

Materials & Design

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Development and characterization of MAO bioactive ceramic coating grown on micro-patterned Ti6Al4V alloy surface

Wang

Guo

Zhuang

et al. 2014

Applied Surface Science

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Development of High‐Performance Mg Alloy via Introducing Profuse Long Period Stacking Ordered Phase and Stacking Faults

et al. 2014

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Due to low density and other features, magnesium (Mg) alloys are becoming one of key engineering structural materials for aerospace and automotive industries. In the meantime, conventional Mg alloys are limited because of their low mechanical properties, especially at high temperatures. In this study, a new Mg-12Ymm-4Zn (Ymm ¼ Y-rich misch metal, wt%) extruded alloy was prepared by watercooled mold casting and hot extrusion, and its ultimate tensile strength (UTS) and tensile yield strength (TYS) could reach 314 and 231 MPa at 300°C, which were slightly lower than those at room temperature (338 and 278 MPa). To date, there is rare report on such high strength for Mg alloys at 300°C, and it has been confirmed that introducing a large volume fraction of long-period stacking ordered (LPSO) phase in combination with nano-spaced stacking faults (SFs) is an effective pathway to develop deformed Mg alloys with high strength at elevated temperatures.

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Enhancing the performance of Mg-based implant materials by introducing basal plane stacking faults

et al. 2015

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Degraded and osteogenic properties of coated magnesium alloy AZ31; an experimental study

et al. 2016

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BackgroundDegraded and osteogenic property of coated magnesium alloy was evaluated for the fracture fixation in rabbits.MethodsMagnesium alloy AZ31 with a different coating thickness by microarc oxidation was used, and the bilateral radial fracture model was created by the bite bone clamp. Thirty-six New Zealand white rabbits in weight of 2.5~3.0 kg were randomly divided into A, B, and C groups at four time points and other 3 rabbits as the control group without magnesium alloy. Coated magnesium alloy AZ31 was implanted on the fracture and fixed with silk thread. Indexes such as general observation, histology, X-ray, hematology, and mechanical properties were observed and detected at 2nd, 4th, 8th, and 12th week after implantation.ResultsFracture in each rabbit was healed at 12th week after implantation. Among the three groups, the best results of general observation, histology, and X-ray appeared in A group without coating. However, A group showed the worst results from the perspective of mechanical properties about tensile strength and flexural strength, which failed to reach that of the natural bone at the 12th week. Comprehensive results displayed that C group with 20-μm coating was better than others in mechanical properties, while there is no difference between B and C groups in hematology.ConclusionsDegradation rate is inversely proportional to the coating thickness. And magnesium alloy with a 20-μm coating is more suitable for the fracture fixation.

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Yongbin Jing

New horizon for high performance Mg-based biomaterial with uniform degradation behavior: Formation of stacking faults

Aquaporin 3 protects against lumbar intervertebral disc degeneration via the Wnt/β-catenin pathway

Formation of stacking faults for improving the performance of biodegradable Mg–Ho–Zn alloy

Microstructure, mechanical and damping properties of Mg–Er–Gd–Zn alloy reinforced with stacking faults

Development and characterization of MAO bioactive ceramic coating grown on micro-patterned Ti6Al4V alloy surface

Development of High‐Performance Mg Alloy via Introducing Profuse Long Period Stacking Ordered Phase and Stacking Faults

Enhancing the performance of Mg-based implant materials by introducing basal plane stacking faults

Degraded and osteogenic properties of coated magnesium alloy AZ31; an experimental study

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