该药 物组合物适用于磁性药物靶向。
The pharmaceutical composition is suitable for magnetic drug targeting.
磁性药物靶向作用能解决所有这些问题。
Magnetic drug targeting can bring solution to all these problems.
目前在药物靶向性给药系统中,脂质体是最成熟和最先进的药物载体之一。
Among several drug delivery systems, liposomal encapsulated anticancer agents represent an advanced and versatile technology.
将药物靶向到肾脏不仅能降低肾外毒性,而且能增加药物在肾脏的作用效果。
Selective targeting of drugs to kidneys may enable an increased renal effectiveness combined with a reduction of extrarenal toxicity.
结论:肝癌特异性多柔比星免疫磷脂纳米粒,有可能成为一种新的药物靶向载体系统。
Conclusion: Doxorubicin phospholipid nanoparticle is able to become a new drug targeting carrier system.
通过大量文献,从靶向治疗设计模式、靶向制剂的分类、抗癌靶向药物载体及影响药物靶向性的因素等方面进行探讨。
The models of drug targeting, the categories of drug targeting, the targeted drug carriers, and the factors that influence the effect of targeting are introuduced through domestic literatures.
因为现在已经有如此之多的药物靶向这些核受体,我们下一步将设法筛选出那些药物具有杀灭表达这些特异性核激素受体肺癌细胞的作用。
Because available drugs already target so many of these receptors, our next step is to find out which drugs will kill lung cancer cells expressing these specific receptors.
靶向治疗法最成功的故事之一是一种名为贺癌平的药物。
One of the biggest success stories of targeted therapy is a drug called Herceptin.
Lapatinib是一种分子药物市场蓬勃发展的产品——被设计用来靶向治疗与疾病相关的特定的蛋白质分子。
Lapatinib is a product of the growing field of molecular medicine-the design of drugs to attack specific protein molecules associated with particular diseases.
经过靶向药物治疗的患者对治疗产生有效反应的时间(平均5个月)也比传统治疗患者(平均2个月)更长。
Those on targeted drugs also responded for longer than those who were not (five months, as against two months, on average).
这种药获得一个好的平衡,而且因为它靶向于免疫激活的特定方面因此是对HIV非常理想的药物。
This drug strikes a good balance and is ideal for HIV because it targets very specific aspects of immune activation.
现在急切需要靶向不同类型卵巢癌独特的分子缺陷的新药物,虽然这些分子缺陷并非精确地出现在某一类型的癌症中,但有几种还是与之相关。
New drugs are badly needed that can target the distinct molecular defects in the different types of ovarian cancer, which may be more accurately seen as not one disease, but several related ones.
既然市场上有很多靶向生物技术药物,那么研究者正开始试验两个靶向药物是否会比一个更好些。
Now that there are several targeted biotech drugs on the market, researchers are starting to test whether two targeted drugs are better than one.
正因如此,靶向药物比通用的治疗方法有效,或许对正常细胞更少损伤。
Because of this, "targeted" drugs may be more effective than current treatments, and may be less harmful to normal cells.
因此,靶向脂质体可以把包裹的抗癌药物专一地送给胃癌细胞,井杀伤它们。
Thus, the targeted liposomes can specifically deliver the antitumor drugs to gastric cancer cells and kill them.
现代靶向药物在革新肿瘤治疗,但它们仅延长有限的几个月生存时间。
Modern targeted drugs are revolutionising cancer care, yet they often increase survival by only a few months.
虽然IPA - 3本身可能不适合人类使用的药物,但这种分子可以形成一个新的靶向治疗的理论基础。
While IPA-3 itself might not be a suitable as a drug for use in humans, the molecule could form the conceptual basis of a new targeted therapeutic.
能够靶向药物意味着所需的药物更少。
Being able to target the drug means that less medicine is needed.
以往我们曾经使用基因疗法,对大脑进行靶向治疗,最后我们发现可能存在一种药物,它可以单独作用于大脑,增强这条信号通路。
We used a gene therapy technique that enables us to target the brain, but ultimately there could be a pharmaceutical that enhances the signaling pathway solely in the brain.
作用于生存和死亡信号的这些靶向药物可能会为我们提供一个新的治疗策略。
Drugs that target the survival and cell death signals themselves may present another new strategy.
因此,可以设计靶向细菌叶酸合成机制的药物,不会在人身上引发副作用。
Therefore, it's possible to design drugs that target the bacterial folate machinery that would not lead to side effects in humans.
但是仍然有很多靶向药物制品研究取得进展。
Still, there are plenty of studies in progress that are looking at combinations of targeted drugs.
基于该技术设计的首批靶向基因的药物已经在美国开始临床试验了,主要是针对具有动脉疾病和由糖尿病引发的神经损伤的病人。
The first drugs designed to target the genes have begun clinical trials in the United States on patients with arterial disease and diabetes-induced nerve damage.
现在又有了另一个亚组及相对应的靶向药物。
本文综述了单分散磁性氧化铁纳米粒子的主要制备方法、表面修饰以及在生物医学靶向药物方面的应用研究进展。
The progress of preparation method and surface modification of monodisperse magnetic iron oxide nanoparticles, as well as their application in the magnetic targeted drug are reviewed.
结果与结论囊泡是新型靶向药物传递系统,具有广阔的研究与应用前景。
Results and conclusions Niosome is a novel targeted drug delivery system, with a wide and promising future.
抗肿瘤抗生素与抗体工程技术的结合可以作为新的技术平台,制备一系列的针对不同靶点的、用于治疗癌症的抗体靶向药物。
The integration of antitumor antibiotic and antibody engineering can serve as new technical platform for manufacture of a series of various target-specific antibody-based drugs for cancer therapy.
目的提高现有抗癌药物的靶向性,降低其不良反应。
Aim to improve the target activity of anticancer medicines and reduce their untoward effects.
用可降解的高聚物材料包埋药物可起到缓释效果,通过控制粒径可实现靶向给药。
Degradable high polymer material can be used for controlled drug delivery systems to embed bioactive agents and drugs for the purpose of controlled release and target delivery.
用可降解的高聚物材料包埋药物可起到缓释效果,通过控制粒径可实现靶向给药。
Degradable high polymer material can be used for controlled drug delivery systems to embed bioactive agents and drugs for the purpose of controlled release and target delivery.
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