结论原位凝胶虽还有一些问题有待解决,但却是一个很有发展潜力的药物传递系统。
Conclusion: Although in situ gel still has problems to solve, it has a bright future.
在这个假设下,他们成功地为抗氧化剂、过氧化氢酶,开发了一个新的基于外泌体的药物传递系统来治疗帕金森疾病。
In light of this, we developed a new exosomal-based delivery system for a potent antioxidant, catalase, to treat Parkinson's disease (PD).
目的筛选丹参酮自乳化药物传递系统的处方,考察其稳定性。
Objective To screen the formulation for tanshinone self-emulsifying drug delivery system (SEDDS) and evaluate its stability.
医用纳米控释系统作为药物、基因传递和控释的载体,是一种新型的控释体系。
As a new drug and gene delivery carrier, medical nanoparticles appear to be very promising and are widely studied.
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.
自乳化药物传递系统可显著地提高难溶性或亲脂性药物口服生物利用度,具有广阔的发展前景。
The SEDDS can dramatically improve the bioavailability of poorly water soluble or lipophilic drugs by oral administration. SEDDS will have a good developmental potential.
因此,探索能高效传递药物和生物大分子进入中枢神经系统进行相应治疗的模式成为当前的重要课题。
Therefore, discovery of new modalities for effective delivery of drugs and biomacromolecules to the central nervous system is of great need and importance for treatment of neuropathy.
目的:总结自乳化药物传递系统的研究概况。
Objective: To review the advances of self-emulsifying drug delivery system.
基因传递系统将治疗基因运送到目标部位,是基因药物的组成部分之一。
Gene delivery system is one of components of a gene medicine, which deliver the therapeutic gene to the desired location of the body.
口服液体控释给药系统是一种新型药物传递系统,因其存在物理不稳定性,所以能上市的品种较少。
Oral liquid drug controlled release system (OLCRS) is a new drug delivery system. But only a few has been come into the market due to the physical instability.
眼部药物传递系统作为控制释放领域的重要分支一直备受人们的关注。
As one of the important fields of controlled release, ophthalmic drug delivery has received extensive interests.
对自我乳化药物传递系统的特点,形成机制,目前采用的处方组成等进行了综述,并对该系统的质量,影响因素及制剂学应用作了一般性介绍。
The characters, mechanism and formulation design of self emulsifying drug delivery system were reviewed. Its quality and affecting factors, and pharmaceutical applications were discussed.
结论聚合物胶束作为药物传递系统具有广阔的应用前景。
Conclusion The polymeric micelles have broad application as drug delivery carriers.
结论树状聚合物的特殊结构决定了它的独特性质,树状聚合物在药物传递系统、基因载体等领域具有广阔的应用前景。
Conclusion the unique properties of dendrimers resulting from their unusual structure gave a broad application prospect in the drug delivery system, genetic carriers and other fields.
这些研究在分子水平上揭示载体的性质及药物与载体相互作用的本质,为改进药物传递系统提供了理论指导。
These researches revealed carriers' properties and the interaction between the drug and carrier in the molecular level, thus providing the theoretic instruction for improving the drug delivery system.
这些研究在分子水平上揭示载体的性质及药物与载体相互作用的本质,为改进药物传递系统提供了理论指导。
These researches revealed carriers' properties and the interaction between the drug and carrier in the molecular level, thus providing the theoretic instruction for improving the drug delivery system.
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