目的以24 h尿钠排泄水平(24 h UNa)作为钠摄入量评估指标,评估不同钠盐的摄入水平与血清炎症因子对2型糖尿病(T2DM)患者尿白蛋白(UA)发生风险的影响。方法纳入T2DM患者130例,依据尿白蛋白/肌酐比值(UACR)水平分为UA阳性组60例和UA阴性...目的以24 h尿钠排泄水平(24 h UNa)作为钠摄入量评估指标,评估不同钠盐的摄入水平与血清炎症因子对2型糖尿病(T2DM)患者尿白蛋白(UA)发生风险的影响。方法纳入T2DM患者130例,依据尿白蛋白/肌酐比值(UACR)水平分为UA阳性组60例和UA阴性组70例。收集患者的临床资料,检测炎性因子及24 h尿液相关指标。采用Spearman相关分析T2DM患者临床指标与UACR的相关性;二元Logistic回归分析T2DM患者临床指标对UA的影响;二分类回归法分析24 h UNa和IL-18关联对UA的影响。结果24 h UNa水平(OR=1.019,95%CI 1.003~1.035,P=0.017)与IL-18(OR=1.204,95%CI 1.060~1.368,P=0.004)是T2DM患者UA阳性的独立危险因素。联合分析提示,与低钠低IL-18组比较,高钠高IL-18组UA阳性风险显著增加(OR=10.774,95%CI 2.105~55.155,P=0.004)。结论24 h UNa、IL-18水平升高是T2DM患者UA发生的危险因素。展开更多
The H6P2W18O62/TiO2composite catalyst was prepared by the combination of nonionic surfactant C18H37(OCH2CH2)10OH(Brij-76)as the template and the sol-gel method.As-synthesized composite was characterized by FT-TR,SEM,N...The H6P2W18O62/TiO2composite catalyst was prepared by the combination of nonionic surfactant C18H37(OCH2CH2)10OH(Brij-76)as the template and the sol-gel method.As-synthesized composite was characterized by FT-TR,SEM,N2 absorption-desorption and NH3-TPD.The results showed that the composite H6P2W18O62/TiO2 was mesoporous material(ca.3.3 nm),and large surface area(99.78 m2/g).Additionally,the aggregation of TiO2 particles was effectively inhibited,and the surface acidity was increased substantially.The photocatalytic elimination of monochlorobenzene was used as model reaction to evaluate the photocatalytic activity of the composite catalyst under visible light separately.Photocatalytic experimental results showed that the composite H6P2W18O62/TiO2 can effectively degradate monochlorobenzene.展开更多
The microstructural evolution of a 18R single phase (S 18) alloy during annealing at 773 K for 100 h was investigated in order to reveal the formation mechanism of 14H phase. The results showed that the as-cast S 18...The microstructural evolution of a 18R single phase (S 18) alloy during annealing at 773 K for 100 h was investigated in order to reveal the formation mechanism of 14H phase. The results showed that the as-cast S 18 alloy was composed of 18R phase (its volume fraction exceeds 93%), W particles and α-Mg phase. The 18R phase in S18 alloy was thermally stable and was not transformed into 14H long period stacking ordered (LPSO) phase during annealing. However, 14H lamellas formed within tiny α-Mg slices, and their average size and volume fraction increased with prolonging annealing time. Moreover, the 14H phase is nucleated within α-Mg independently on the basis of basal stacking faults (SFs). The broadening growth of 14H lamellas is an interface-controlled process which involves ledges on basal planes, while the lengthening growth is a diffusion-controlled process and is associated with diffusion of solute atoms. The formation mechanism of 14H phase in this alloy could be explained as α-Mg'→α-Mg+14H.展开更多
文摘目的以24 h尿钠排泄水平(24 h UNa)作为钠摄入量评估指标,评估不同钠盐的摄入水平与血清炎症因子对2型糖尿病(T2DM)患者尿白蛋白(UA)发生风险的影响。方法纳入T2DM患者130例,依据尿白蛋白/肌酐比值(UACR)水平分为UA阳性组60例和UA阴性组70例。收集患者的临床资料,检测炎性因子及24 h尿液相关指标。采用Spearman相关分析T2DM患者临床指标与UACR的相关性;二元Logistic回归分析T2DM患者临床指标对UA的影响;二分类回归法分析24 h UNa和IL-18关联对UA的影响。结果24 h UNa水平(OR=1.019,95%CI 1.003~1.035,P=0.017)与IL-18(OR=1.204,95%CI 1.060~1.368,P=0.004)是T2DM患者UA阳性的独立危险因素。联合分析提示,与低钠低IL-18组比较,高钠高IL-18组UA阳性风险显著增加(OR=10.774,95%CI 2.105~55.155,P=0.004)。结论24 h UNa、IL-18水平升高是T2DM患者UA发生的危险因素。
文摘The H6P2W18O62/TiO2composite catalyst was prepared by the combination of nonionic surfactant C18H37(OCH2CH2)10OH(Brij-76)as the template and the sol-gel method.As-synthesized composite was characterized by FT-TR,SEM,N2 absorption-desorption and NH3-TPD.The results showed that the composite H6P2W18O62/TiO2 was mesoporous material(ca.3.3 nm),and large surface area(99.78 m2/g).Additionally,the aggregation of TiO2 particles was effectively inhibited,and the surface acidity was increased substantially.The photocatalytic elimination of monochlorobenzene was used as model reaction to evaluate the photocatalytic activity of the composite catalyst under visible light separately.Photocatalytic experimental results showed that the composite H6P2W18O62/TiO2 can effectively degradate monochlorobenzene.
基金Project(BK20160869)supported by the Natural Science Foundation of Jiangsu Province,ChinaProject(GY12015009)supported by the Nantong Science and Technology Program,China+1 种基金Project(2015B01314)supported by the Fundamental Research Funds for the Central Universities,ChinaProject(51501039)supported by the National Natural Science Foundation of China
文摘The microstructural evolution of a 18R single phase (S 18) alloy during annealing at 773 K for 100 h was investigated in order to reveal the formation mechanism of 14H phase. The results showed that the as-cast S 18 alloy was composed of 18R phase (its volume fraction exceeds 93%), W particles and α-Mg phase. The 18R phase in S18 alloy was thermally stable and was not transformed into 14H long period stacking ordered (LPSO) phase during annealing. However, 14H lamellas formed within tiny α-Mg slices, and their average size and volume fraction increased with prolonging annealing time. Moreover, the 14H phase is nucleated within α-Mg independently on the basis of basal stacking faults (SFs). The broadening growth of 14H lamellas is an interface-controlled process which involves ledges on basal planes, while the lengthening growth is a diffusion-controlled process and is associated with diffusion of solute atoms. The formation mechanism of 14H phase in this alloy could be explained as α-Mg'→α-Mg+14H.