This paper introduces the momentum and flow field of tiny-hole jet-flow in high-pressure homogenization processing by applying fluid dynamics.
本文应用流体力学理论分析了高压均质过程中,微孔射流内动量及流场结构。
Solid lipid nanoparticles (SLN) are nanoparticles generally made from solid lipids by high pressure homogenization.
固体脂质纳米粒通常是由固体脂质材料经高压乳匀法制备而成。
The subsiding and substratification problems of product were solved with addition of 0.1% agar and 0.35% Cmc-Na as compound stabilizer and homogenization at high-pressure.
添加0.1%的琼脂和0.35%的羧甲基纤维素钠作为复合稳定剂,经高压均质杀菌处理,解决了产品沉淀问题。
Conclusions High pressure homogenization has better scale-up feasibility to produce intravenous SLN.
结论现有手段中高压均质法制备静脉注射用SLN具有良好的工业化潜力。
CONCLUSIONS Compritol 888 ATO was a good material for preparing silymarin-loaded nanoparticles, and high pressure homogenization may be used to prepare the silymarin-loaded SLN.
结论选择山榆酸甘油酯作为制备水飞蓟素纳米粒的载体材料,采用高压乳匀法制备水飞蓟素sln是较为理想的方法。
Conclusion Compared with ultrasonication, high pressure homogenization is a better method to prepare TET-SLN, which is smaller, steadier and highly incorporated.
结论高压乳匀法制备的TET- SLN具有粒径小、稳定性和包封率高的特点,优于超声法。
Based on phase diagram results, ALA lipid nanoparticles (LN) were prepared by High Pressure Homogenization method.
根据相图结果,采用高压均质法制备了硫辛酸脂质纳米粒。
Methods: Docetaxel liposomes were prepared by modified film dispersion-high pressure homogenization and lyophilization.
方法:采用改良薄膜分散法结合冷冻干燥工艺制备多西他赛脂质体冻干粉;
Methods: Docetaxel liposomes were prepared by modified film dispersion-high pressure homogenization and lyophilization.
方法:采用改良薄膜分散法结合冷冻干燥工艺制备多西他赛脂质体冻干粉;
应用推荐