1)FSHRStra8
1.Induce Female Bone Marrow Stem Cells to Differentiate into Stra8~+ Cells and FSHR~+ Cells;诱导雌性骨髓干细胞向Stra8~+及FSHR~+细胞分化的研究
ST glueST胶
1.According to the condition that water content ratio of the loose sandstone reservoir increase highly during late production and the characteristic of macromolecular compound ST glue,the paper made experimental study.针对疏松砂岩高含水的现状,并根据高分子化合物ST胶的特性所作出的室内实验研究。
3)ST steelST钢
1.This paper has studied the changes about tensile strain hardening exponent (n-value) in three kinds of ST steels by testing n-values and found changing tendency of them.进行三种ST钢的应变硬化指数n值试验,分析试验结果,研究n值在整个应变区间的变化趋势。
4)ST-segmentST段
1.Relations between ST-segment resolution and myocardial tissue perfusion in patients with acute myocardial infarction and treated by primary percutaneous coronary intervention;急性心肌梗死冠状动脉介入治疗后心电图ST段回落与心肌组织灌注的观察
2.Relationship between severity of coronary artery disease, its prognosis and ST-segment depression on anterior wall during acute inferior wall myocardial infarction;前壁导联ST段压低与急性下壁心肌梗死冠脉病变状况及预后的关系
3.The appreciation of short term and long term cardiac vent value of maximum ST-segment elevation (maxSTE) after interventional therapy in the patients with acute ST-segment elevation myocardial infarction (STEMI);急性ST段抬高心肌梗死介入治疗后单导联ST段抬高峰值对近期及远期心脏不良事件的预测价值
5)St DVBSt-DVB
6)ST segmentST段
1.Relationship between ST segment changes and heart function in patients with anterior wall acute myocardial infarction treated by PCI;急性前壁心肌梗死急诊经皮冠状动脉介入术后ST段变化与心功能关系
2.The clinical significance of electrocardiogram changes after thrombolysis in the patients with acute ST segment elevation myocardial infarction;ST段抬高型急性心肌梗死溶栓后心电图改变的临床意义
3.The changes of R wave,Q wave and ST segment in the patients with acute anterior myocardial infarction;急性前壁心肌梗死R波、Q波和ST段演变速度的观察
延伸阅读
17α-Ethinyl-18-methyle-stra-4,9-dien-17β-ol-3-one分子式:C21H26O2分子量:310.44CAS号:24881-79-6性质:产品为结晶化合物。熔点185-189℃。制备方法:可用β-萘酚经(甲)醚化、催化氢化、氧化、加成(与乙烯基溴化镁)、缩合(与1-乙基-2,5-环戊二酮)、环合,生成3-甲氧基-18-甲基-1,3,5(10),8,14-雌甾五烯-17-酮,然后经催化氢化、还原、氧化、炔化、水解、加成、消除等反应制得该品。用途:三烯高诺酮的中间体。
