目的制备阿霉素磷脂毫微粒复合体。
目的优选肝靶向氧化苦参碱毫微粒的制备工艺。
Objective TO optimize the process for preparing liver - targeted oxymatrine nanoparticles (LTON).
目的研究载有肌苷的毫微粒对视神经切断后视网膜节细胞(RGC)存活的影响。
Objective To examine the effect of inosine-loaded nanoparticles on the survival of retinal ganglion cells (RGCs) after optic nerve transection.
方法:采用均匀设计方法设计实验,以界面聚合法制备出阿克拉霉素A聚乳酸毫微粒。
METHODS: An optimal design was selected to establish the optimal condition, and the interfacial polymerization method was used to prepare the nanoparticle system.
所使用的图像数据可以是在嗜淋巴细胞的超顺磁毫微粒的静脉给药之前以及之后所获得的磁共振图像数据。
The image data used may be magnetic resonance image data that was obtained before and after the intravenous administration of lymphotropic superparamagnetic nanoparticles.
在体外溶出实验中对阿霉素磁性毫微粒体外释放性能的影响主要考察了三个因素:毫微粒平均粒径大小、毫微粒的载药量以及交联剂含量。
In the drug release kinetics investigation, influences of the content of drug, the microsphere size and the content of crossing-linker on the drug-release were studied.
从外侧开始,固定在轴上的一个防腐锌铝合金护盖可防止大于一毫米的微粒进入辊子内;
Starting from the outside, fixed to the shaft of an aluminum cover to prevent corrosion of zinc particles larger than 1 mm into the inner roller;
HEPA四个英文字母代表HighEfficiencyParticulateAir。高效微粒空气处理器能够捕捉到空气中几乎所有的微粒,即0.3毫米或者大一点的微粒。
The letters H-E-P-A represent the words High Efficiency Particulate air. HEPA filters capture almost all particles in the air that are zero point three microns in size or larger.
HEPA四个英文字母代表HighEfficiencyParticulateAir。高效微粒空气处理器能够捕捉到空气中几乎所有的微粒,即0.3毫米或者大一点的微粒。
The letters H-E-P-A represent the words High Efficiency Particulate air. HEPA filters capture almost all particles in the air that are zero point three microns in size or larger.
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