结果纳米颗粒转运系统能够保护被转运的基因,有较高的转染效率,具有良好的靶向性,并且提高了药物的生物利用度,显示出一定的缓控释作用。
Results Nanoparticle carrier system can protect the genes, have a high carrying efficiency and a well targeting property, it also can improve the bioavailability, sustained and controlled release.
对这些转运蛋白的研究使人们能深入地解析药物在血脑脊液屏障上的动态,更有效地调控药物转运行为,指导脑靶向与非脑靶向药物的研发设计。
Study on these transporters could attribute to elucidate the action of the drug at the BCSFB, regulate the drug transport behavior and guide the research & d…
现从药物由鼻腔到脑的转运方式、影响因素、剂型、评价方法以及增强脑靶向性的方法等方面,对近年来鼻腔给药脑靶向性的研究进展进行综述。
Advances on drugs transport pathway from nasal cavity to brain, factors affecting the transport of drugs, types of dosage forms and evaluation tools of the brain-targeted nasal delivery system we...
现从药物由鼻腔到脑的转运方式、影响因素、剂型、评价方法以及增强脑靶向性的方法等方面,对近年来鼻腔给药脑靶向性的研究进展进行综述。
Advances on drugs transport pathway from nasal cavity to brain, factors affecting the transport of drugs, types of dosage forms and evaluation tools of the brain-targeted nasal delivery system we...
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