药物以亚微粒大小被携带的纳米粒技术可以通过增加和延长药物在细胞内的释放来增强被包囊药物的治疗效果。
Purpose Nanoparticles, drug carriers in the sub-micron size range, can enhance the therapeutic efficacy of encapsulated drug by increasing and sustaining the delivery of the drug inside the cell.
这样情况下,我们已经攻克了一个重要难关,纳米微粒在医学中的运用难关,这意味着药物将有可能可以到达身体的任意部位。
In so doing, we have overcome a major limitation involving the application of nanoparticles in medicine, namely the potential of these agents to distribute throughout the body.
载药纳米微粒是纳米技术与现代医药学结合的产物,是一种新型的药物输送载体。
The Drug loaded nanoparticle is a new technology produced by nanotechnology combined with modern medicine.
纳米微粒在癌症的监测、治疗,细胞和蛋白质的分离,基因治疗,靶向和缓释控药物等中都有着广泛的应用。
Nanobiomaterials can be widely used in the fields of monitoring and therapy of cancer, separation of cells or proteins, genic therapy, drug target delivery and release, and so forth.
载药纳米微粒是纳米技术与现代医药学结合的产物,是一种新型的药物输送载体。
The drug loaded nanoparticle is a new technology produced by nanotechnology combined with modern medicine. Its a new carrier of drug transport.
我们现在正利用蜂毒素分子的无毒性部位将其他药物、靶向药物、或者成像药物与纳米微粒结合起来。
We are now using a nontoxic part of the melittin molecule to hook other drugs, targeting agents, or imaging compounds onto nanoparticles.
超细微粒特别是纳米粒子的研制,已成为药物输送系统研究中的一个热门领域。
The study and preparation of microparticles, especial nanoparticles have become an attracting field with respect to the drug delivery systems.
该文综述了磁性纳米微粒的现状及其在磁性靶向药物传递中作为药物载体在肝癌治疗中的应用研究进展。
This article summarizes the current state of nano drug carrier with magnetic targeting and the progress as a targeting carrier in the treatment of hepatocellular carcinoma.
该文综述了磁性纳米微粒的现状及其在磁性靶向药物传递中作为药物载体在肝癌治疗中的应用研究进展。
This article summarizes the current state of nano drug carrier with magnetic targeting and the progress as a targeting carrier in the treatment of hepatocellular carcinoma.
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