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- cyclosporine microemulsion 环孢素微乳剂
- Formation and behavior of nonionic microemulsion. 非离子型微乳液的形成及其相行为研究。
- RESULTS The preparation of cyclosporine A mic... 结论微乳在药学上有广阔的应用前景。
- Doctors note that cyclosporine can cause kidney damage. 医生注意到环孢菌素能引起肾损害。
- The silymarin self-emulsifying microemulsion was prepared. 制备了水飞蓟素自微乳。
- Steroids and cyclosporine can make you retain fluids and swell. 类固醇及环孢灵会使你水分滞留及水肿。
- Objective To prepare stable silybin oral microemulsion. 目的制备稳定的水飞蓟宾口服微乳。
- Cyclosporine and steroids may cause your blood sugar to rise. 环孢灵和类固醇可能使你的血糖上升。
- Ten days after cyclosporin intoxication he was discharged from the ICU. 环孢霉素中毒10天后,他从ICU出院。
- HPLC method was established for the determination of etoposide microemulsion. 建立了HPLC法测定依托泊苷微乳的含量。
- The challenge of preparing nanoparticles by inverse microemulsion was given. 最后指出了当前反胶团微乳液制备纳米颗粒所面临的挑战。
- AIM: To study the effects of cyclosporine (Cyc) on apoptosis of HL-60 cells. 目的:研究环孢菌素(Cyc)在HL-60细胞凋亡中的作用.
- The average content of ginkgolic acid in ginkgo microemulsion was0.949%. 银杏微乳剂中银杏酸的平均含量为0.;949%25。
- In the experimental group,cyclosporine A(CsA)was delivered with 3 mg/kg. 实验组:于移植术后第1天开始腹腔内注射环孢素A(3mg/kg)。
- HPLC method for determination of cyclosporin A in whole blood was established. 建立了测定人全血中环孢素A的HPLC法。
- Nanodroplets of the microemulsion bind with nanoparticles of the nutraceutical or cosmetoceutical. 该微小乳状液中的纳米液滴与营养食品或药用美容品的纳米颗粒结合。
- AgCl//PMMA organic-inorganic hybrid membrane was prepared by reverse microemulsion polymerization using methyl methacrylate(MMA) as oil phase. 以甲基丙烯酸甲酯(MMA)为油相,利用微乳液聚合技术制备了氯化银/聚甲基丙烯酸甲酯(PMMA)有机-无机杂化膜。
- GVHD prophylaxis regimen consisted of cyclosporine(CsA) and mycophenolate mofetil (MMF). 移植物抗宿主病 (GVHD)的预防采用环孢菌素A(csa) +霉酚酸酯 (MMF)方案。
- Recent advances in microemulsion electrokinetic chromatography (MEEKC) are reviewed. 综述了近年来毛细管微乳液电动色谱(MEEKC)的研究进展。
- A magnetic-nanometer titania dioxide/ferriferous oxide(TiO-2/Fe-3O-4) composite was prepared by microemulsion system. 采用油酸/正丁醇/NaOH溶液制备了Fe3O4负载纳米TiO2.;用微乳体系制备出纳米二氧化钛前驱体;然后由表面活性剂稳定和保护的纳米粒子在氢键吸附等作用力下包覆于Fe3O4载体的表面
