氨基己酸

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  • aminocaproic acid;hexosamine
氨基己酸氨基己酸
  1. 6-氨基己酸治疗兔内毒素发热反应的实验研究

    Effect of 6 - aminocaproic acid on fever reaction of rabbit induced by endotoxin

  2. 6-氨基己酸对儿童体外循环时纤溶系统的保护作用

    The Protective Effect of Epsilon aminocaproic Acid on Fibrinolytic System in Children Undergoing Cardiopulmonary Bypass

  3. 氨基己酸可抑制CPB引起的纤溶系统激活,减少术后出血和输库血量。

    EACA is effective in reducing postoperative blood loss and blood transfusion through inhibition of the activation of fibrinolytic system .

  4. 目的观察6-氨基己酸(EACA)治疗内毒素发热反应的疗效。

    Objective To investigate the effect of 6-aminocaproic acid ( EACA ) on fever reaction of rabbit induced by endotoxin .

  5. 目的:评价乙酰氨基己酸锌的一般生殖毒性。

    Objective : To study general reproductive toxicity on ZAC in SD rats .

  6. 结论6-氨基己酸可减少二尖瓣替换术后失血。

    Conclusion : 6-aminocaproic acid can reduce postoperation bleeding following in mitral valve replacement .

  7. 6-氨基己酸治疗输液/输血发热反应的临床研究

    A Clinical Study of 6-aminohexanoic Acid on Fever Reaction of Intravenous Transfusion and Blood Transfusion

  8. 结论:6-氨基己酸静脉给药法能显著降低继发性前房出血的发生率。

    Conclusion : lntravenous administration of aminocaproic acid could reduce the incidence of secondary hemorrhage significantly .

  9. 6-氨基己酸对已内醯胺聚合反应的影响曾进行了研究。

    The influence of 6 - aminocaproic acid on the polymerization of caprolactam has been studied .

  10. 6-氨基己酸和抑肽酶减少心瓣膜置换术术后出血的对比研究

    Comparative Study of Efficacy Between 6-Epsilon-aminocaproic Acid and Aprotinin on Reducing Bleeding after Cardiac Valve Replacement

  11. 6-氨基己酸对体外循环时纤溶系统的影响及与抑肽酶的对比研究

    Comparison of the effects of epsilon-aminocaproic acid and aprotinin on fibrinolytic system in children undergoing cardiopulmonary bypass

  12. 目的与方法:本文研究乙酰氨基己酸锌对小鼠的急性毒性作用以及用鼠伤寒沙门氏菌突变株的回复突变性检测乙酰氨基己酸锌是否具有致突变性。

    Objective and Methods : The acute toxicity of mice and mutagenesis ( Ames assay ) of ZAC were evaluated .

  13. 氨基己酸和乌司他丁对心脏瓣膜置换病人纤溶系统和炎症反应的影响

    Effects of Aminocaproic Acid and Ulinastatin on Fibrinolytic System and Inflammatory Response to Cardiopulmonary Bypass in Cardiac Valve Replacement Surgery

  14. 以2,6-二氨基己酸为原料,仿生合成了海洋降压药物&藻白金,其产率达37.6%,纯度达97.2%。

    Using lysine , marine hypotensive & Zaobaijin is synthesized by bio-mimetic synthesis method with 37.6 % yield and 97.2 % purity .

  15. 在水分散液中使蒙脱土与6-氨基己酸或对氨基苯甲酸进行插层反应制得有机改性蒙脱土。

    Organically modified montmorillonites were obtained by the reaction of montmorillonite ( MMT ) dispersed in water with 6-amino-caproic acid or p-aminobenzoic acid .

  16. 分别以五种不同量的6-氨基己酸为催化剂于230±1°在封管中进行己内醯胺的聚合。

    Samples of five sets of different mole ratios of the catalyst and caprolactam were sealed inseparate tubes and heated at 230 ± 1 ° in a specially designed tube furnace .

  17. 目的:了解体外循环手术时预防性使用6氨基己酸是否能和抑肽酶一样有效地减少心脏瓣膜置换手术患者术后出血;观察6氨基己酸是否可能导致这些患者血栓形成以及可能对肾脏功能的不利影响。

    [ Objective ] To investigate the hemostasia effect , the influence to the renal function and the possibility thromboembolism of epsilon-aminocaproic acid ( EACA ) for patients undergoing prosthetic valve replacement .

  18. 将这种处理的和未处理的蒙脱土按不同重量配比和己内酰胺混合,在加入少量6-氨基己酸做引发剂,在氮气的保护下使己内酰胺开环聚合形成复合物。

    The treated montmorillonites with different weight and caprolactam were mixed in a mortar . The mixtures were heated to the ring-opening polymerization caprolactam , using 6-aminocaproic acid as the initiator under nitrogen atmosphere .

  19. 无溶剂合成N,N-二乙氨基乙醇己酸酯的研究

    Study on Synthesis of ( N , N-diethylamino ) ethyl Caproate in Solvent Free

  20. 用钛酸四丁酯催化合成N,N-二乙氨基乙醇己酸酯

    Synthesis of ( N , N-Diethylamino ) Ethyl Caproate by Using Catalyst Ti ( OBu ) _4

  21. 用固体超强酸SO4~(2-)/TiO2催化剂合成N,N-二乙氨基乙醇己酸酯

    Synthesis of ( N , N-Diethylamino ) ethyl Caproate by Using Solid Superacid Catalyst / TiO_2

  22. Lewis酸催化合成2-(二乙氨基)乙基己酸酯

    Synthesis of 2 - ( Diethylamino ) ethyl Caproate by Using Lewis Acid