类风湿关节炎(rheumatoid arthritis,RA)是一种临床常见的以滑膜炎为主的自身免疫性疾病。炎性细胞因子和破骨细胞刺激滑膜组织增生、炎症反应、骨质破坏及关节功能障碍等,在RA的致病因素中占据关键位置。本文对中药单体及其提取物、中...类风湿关节炎(rheumatoid arthritis,RA)是一种临床常见的以滑膜炎为主的自身免疫性疾病。炎性细胞因子和破骨细胞刺激滑膜组织增生、炎症反应、骨质破坏及关节功能障碍等,在RA的致病因素中占据关键位置。本文对中药单体及其提取物、中药复方及制剂、中药配伍,以及中医治疗通过调控骨保护蛋白(osteoprotegerin,OPG)/NF-κB受体激活因子(receptor activator of NF-κB,RANK)/NF-κB配体激活因子(receptor activator of NF-κB ligand,RANKL)信号通路干预RA的相关研究进行综述。结果表明,中药中的有效分子机制不同,但是可以起到调控信号通路的作用,刺激成骨细胞活性,抑制炎性细胞因子分泌,减少破骨细胞分化,从而防治RA,为中医药多靶点、多途径治疗RA提供理论依据。展开更多
The effect of Er on the microhardness and precipitation behavior of the heat-treated Al−Si−Mg alloy was investigated by microhardness tester and TEM.As a comparison,the influence of natural aging was also studied.It i...The effect of Er on the microhardness and precipitation behavior of the heat-treated Al−Si−Mg alloy was investigated by microhardness tester and TEM.As a comparison,the influence of natural aging was also studied.It is shown that the thermal stability of the over-aged Al−Si−Mg−Er alloy is highly related to the average size of the precipitates.The average size ofβ''precipitates in Al−Si−Mg−Er alloy is smaller than that in Al−Si−Mg alloy,and the distribution is more localized under condition of without introducing natural aging.However,when natural aging is introduced before artificial aging,the Al−Si−Mg−Er alloy has similar average size and distribution of precipitates with the Al−Si−Mg alloy,resulting in similar mechanical properties.The effect of Er on the precipitation kinetics in the alloy was also discussed in detail to explain these phenomena.展开更多
Enhancing combinatorial properties,such as excellent corrosion resistance,high strength and good ductility combined,is an important issue for manufacturing high-quality AlMgSi(Cu)alloys.Here,we show that this can be a...Enhancing combinatorial properties,such as excellent corrosion resistance,high strength and good ductility combined,is an important issue for manufacturing high-quality AlMgSi(Cu)alloys.Here,we show that this can be achieved by optimizing a combinatorial process consisting of pre-ageing,cold-rolling and post-ageing to tailor the hierarchical microstructures of the alloy.Transmission electron microscopy analysis reveals that the enhanced combinatorial properties of corrosion resistance,strength and ductility are owing to modification of grain boundary microstructure in good association with changes of precipitate microstructures and a more homogenous distribution of solute atoms,as compared with the microstructures of the alloy processed by thermal ageing only.展开更多
文摘类风湿关节炎(rheumatoid arthritis,RA)是一种临床常见的以滑膜炎为主的自身免疫性疾病。炎性细胞因子和破骨细胞刺激滑膜组织增生、炎症反应、骨质破坏及关节功能障碍等,在RA的致病因素中占据关键位置。本文对中药单体及其提取物、中药复方及制剂、中药配伍,以及中医治疗通过调控骨保护蛋白(osteoprotegerin,OPG)/NF-κB受体激活因子(receptor activator of NF-κB,RANK)/NF-κB配体激活因子(receptor activator of NF-κB ligand,RANKL)信号通路干预RA的相关研究进行综述。结果表明,中药中的有效分子机制不同,但是可以起到调控信号通路的作用,刺激成骨细胞活性,抑制炎性细胞因子分泌,减少破骨细胞分化,从而防治RA,为中医药多靶点、多途径治疗RA提供理论依据。
基金The authors are grateful for the financial supports from the National Key Research and Development Program of China(2016YFB0300801)the National Natural Science Foundation of China(11904093,51831004,51671082,51471067 and 11427806).
文摘The effect of Er on the microhardness and precipitation behavior of the heat-treated Al−Si−Mg alloy was investigated by microhardness tester and TEM.As a comparison,the influence of natural aging was also studied.It is shown that the thermal stability of the over-aged Al−Si−Mg−Er alloy is highly related to the average size of the precipitates.The average size ofβ''precipitates in Al−Si−Mg−Er alloy is smaller than that in Al−Si−Mg alloy,and the distribution is more localized under condition of without introducing natural aging.However,when natural aging is introduced before artificial aging,the Al−Si−Mg−Er alloy has similar average size and distribution of precipitates with the Al−Si−Mg alloy,resulting in similar mechanical properties.The effect of Er on the precipitation kinetics in the alloy was also discussed in detail to explain these phenomena.
基金supported by the National Key Research and Development Program of China(No.2016YFB0300801)the National Natural Science Foundation of China(Nos.51471067,11427806 and 51671082)
文摘Enhancing combinatorial properties,such as excellent corrosion resistance,high strength and good ductility combined,is an important issue for manufacturing high-quality AlMgSi(Cu)alloys.Here,we show that this can be achieved by optimizing a combinatorial process consisting of pre-ageing,cold-rolling and post-ageing to tailor the hierarchical microstructures of the alloy.Transmission electron microscopy analysis reveals that the enhanced combinatorial properties of corrosion resistance,strength and ductility are owing to modification of grain boundary microstructure in good association with changes of precipitate microstructures and a more homogenous distribution of solute atoms,as compared with the microstructures of the alloy processed by thermal ageing only.
基金This work was supported by the National Natural Science Foundation of China(Nos.52001119,51831004,52171006)the Fundamental Research Funds for the Central Universities,China.
