目的探索脊柱退变住院患者血清尿酸/高密度脂蛋白比值与骨密度的相关性。方法共纳入803例脊柱退变的受试者,评估临床因素及实验室检查结果,测量骨密度,按照骨密度结果分为骨质疏松症组及非骨质疏松症组。采用多元Logistic回归分析血清尿...目的探索脊柱退变住院患者血清尿酸/高密度脂蛋白比值与骨密度的相关性。方法共纳入803例脊柱退变的受试者,评估临床因素及实验室检查结果,测量骨密度,按照骨密度结果分为骨质疏松症组及非骨质疏松症组。采用多元Logistic回归分析血清尿酸/高密度脂蛋白比值(uric acid to high-density lipoprotein cholesterol ratio,UHR)与骨质疏松症的相关性。结果与非骨质疏松症组相比,骨质疏松症组的UHR更低(244.93±.102.51 vs 199.97±.91.96,P<0.001),多元Logistics回归分析提示,在校正了骨质疏松症的传统危险因素后,UHR最高的四分位患者发生骨质疏松症的可能性是UHR最低的四分位患者的0.402倍(P=0.018)。骨质疏松症的患病率在UHR四分位呈下降的趋势,骨密度在UHR四分位呈升高的趋势。UHR在骨量正常、骨量减少及骨质疏松症3组呈下降的趋势。结论低UHR是昆山地区脊柱退变住院患者发生骨质疏松症的危险因素。对于UHR较低的脊柱退变患者,应注意筛查骨质疏松症。展开更多
The morphology and content of the divorced eutectic in the microstructure of high pressure die casting(HPDC) magnesium alloy have a great influence on the final performance of castings. Based on the previous work conc...The morphology and content of the divorced eutectic in the microstructure of high pressure die casting(HPDC) magnesium alloy have a great influence on the final performance of castings. Based on the previous work concerning simulation of the nucleation and dendritic growth of primary α-Mg during the solidification of magnesium alloy under HPDC process, an extension was made to the formerly established CA(Cellular Automaton) model with the purpose of modeling the nucleation and growth of Mg-Al eutectic. With a temperature field and solute field obtained during simulation of the primary α-Mg dendrites as the initial condition of the modified CA model, modeling of the Mg-Al eutectic with a divorced morphology was achieved. Moreover, the simulated results were in accordance with the experimental ones regarding the distribution and content of the divorced eutectic. Taking a "cover-plate" die casting with AM60 magnesium alloy as an example, the rapid solidification with a high cooling rate at the surface layer of the casting led to a fine and uniform grain size of primary α-Mg, while the divorced eutectic at the grain boundary revealed a more dispersed and granular morphology. Islands of divorced eutectic were observed at the central region of the casting, due to the existence of ESCs(Externally Solidified Crystals) which contributed to a coarse and non-uniform grain size of primary α-Mg. The volume percentage of the eutectic β-Mg_(17)Al_(12) phase is about 2%-6% in the die casting as a whole. The numerical model established in this study is of great significance to the study of the divorced eutectic in the microstructure of die cast magnesium alloy.展开更多
文摘目的探索脊柱退变住院患者血清尿酸/高密度脂蛋白比值与骨密度的相关性。方法共纳入803例脊柱退变的受试者,评估临床因素及实验室检查结果,测量骨密度,按照骨密度结果分为骨质疏松症组及非骨质疏松症组。采用多元Logistic回归分析血清尿酸/高密度脂蛋白比值(uric acid to high-density lipoprotein cholesterol ratio,UHR)与骨质疏松症的相关性。结果与非骨质疏松症组相比,骨质疏松症组的UHR更低(244.93±.102.51 vs 199.97±.91.96,P<0.001),多元Logistics回归分析提示,在校正了骨质疏松症的传统危险因素后,UHR最高的四分位患者发生骨质疏松症的可能性是UHR最低的四分位患者的0.402倍(P=0.018)。骨质疏松症的患病率在UHR四分位呈下降的趋势,骨密度在UHR四分位呈升高的趋势。UHR在骨量正常、骨量减少及骨质疏松症3组呈下降的趋势。结论低UHR是昆山地区脊柱退变住院患者发生骨质疏松症的危险因素。对于UHR较低的脊柱退变患者,应注意筛查骨质疏松症。
基金financially supported by the Fundamental Research Funds for the Central Universities(WUT:2017IVA036)111 Project(B17034)State Key Laboratory of Materials Processing and Die&Mould Technology,Huazhong University of Science and Technology(P2018-003)
文摘The morphology and content of the divorced eutectic in the microstructure of high pressure die casting(HPDC) magnesium alloy have a great influence on the final performance of castings. Based on the previous work concerning simulation of the nucleation and dendritic growth of primary α-Mg during the solidification of magnesium alloy under HPDC process, an extension was made to the formerly established CA(Cellular Automaton) model with the purpose of modeling the nucleation and growth of Mg-Al eutectic. With a temperature field and solute field obtained during simulation of the primary α-Mg dendrites as the initial condition of the modified CA model, modeling of the Mg-Al eutectic with a divorced morphology was achieved. Moreover, the simulated results were in accordance with the experimental ones regarding the distribution and content of the divorced eutectic. Taking a "cover-plate" die casting with AM60 magnesium alloy as an example, the rapid solidification with a high cooling rate at the surface layer of the casting led to a fine and uniform grain size of primary α-Mg, while the divorced eutectic at the grain boundary revealed a more dispersed and granular morphology. Islands of divorced eutectic were observed at the central region of the casting, due to the existence of ESCs(Externally Solidified Crystals) which contributed to a coarse and non-uniform grain size of primary α-Mg. The volume percentage of the eutectic β-Mg_(17)Al_(12) phase is about 2%-6% in the die casting as a whole. The numerical model established in this study is of great significance to the study of the divorced eutectic in the microstructure of die cast magnesium alloy.