结论:硬脂酸纳米粒有可能成为一种新型药物载体。
Conclusion: Stearic acid solid lipid nanoparticles might be a novel drug delivery carrier.
结论所制亲水性淀粉微凝胶可望开发为新型药物载体。
CONCLUSION The hydrophilic starch microgel can be developed as novel drug carrier.
选择新型药物载体解决虫草素脱氨基问题成为当前研究的重要方向。
Choosing new carriers of drugs to solve the deactivation of cordycepin has become an important direction.
材料生物降解机理和主要的影响因素以及作为新型药物载体材料的应用前景。
The biodegraded mechanism of these polymers and the application foreground as the carriers of drugs for sustained delivery were then explained.
采用新型药物载体使天然药物具有靶向作用是近年来药剂学的研究热点之一。
The research on target drug systems of natural drugs is one of the highlights of pharmaceutics recently.
因此,开发新型药物载体及相关材料对于研发新型医药产品有着重要的意义。
Therefore it is important for the development of new drugs to keen on the research of new drug vector and material revolved.
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.
医用纳米高分子作为药物、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 polymer nanoparticles appear to be very promising and have been widely studied.
随着新型超声微泡造影剂的研究和应用,超声微泡不仅能增强超声造影,而且也能作为运送基因或药物的载体。
With the research and application of the new ultrasound microbubble contrast agents, ultrasonic microbubbles can not only help to image, but they can also be used as genes or drug carriers.
离子交换纤维具有“储库”性质和解离平衡特点,可以作为新型的药物载体。
Ion-exchange fibers as a new kind of drug carrier could be used for drug delivery system by the ion exchange equilibrium between drug ions and surrounding counter ions.
针对一种新型可降解植入式药物载体的高效制备需要,进行聚合物多腔体微结构热压成形设备的温度控制装置和温度控制系统研制。
For the needs of a new type of biodegradable implantable drug delivery, temperature control device and temperature control system of the hot-embossing equipment were designed and manufactured.
背景:医用纳米粒作为药物传递的新型载体,目前已经成为医药领域研究的重点。
BACKGROUND: as a new drug delivery carrier, medical nanoparticle has currently become the focus of research in the field of medicine.
目的采用新型微孔膜乳化法制备粒径均匀、包埋率高、包埋稳定的抗癌剂碘油复乳药物载体。
OBJECTIVE To prepare the stable lipiodol double emulsion with uniform size and high encapsulation efficiency as drug carrier by a novel membrane emulsification technique.
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.
目的:探讨壳聚糖在脑组织中的生物相容性,为临床提供新型、可用于颅内植入化疗的药物缓释载体。
OBJECTIVE to evaluated the biocompatibility of chitosan in rat brain and to provide a macromolecule sustained release drug delivery system for intracranial implantable chemotherapy.
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.
本文针对经皮给药系统新型压敏胶及新型经皮给药技术需求,研制了三类亲水性压敏胶及两种药物纳米载体材料,并对其性能进行了研究。
In this study, three kinds of hydrophilic pressure sensitive adhesives and two kinds of nanocarrier materials were prepared for technology requirement of TDDS and their properties were investigated.
本文针对经皮给药系统新型压敏胶及新型经皮给药技术需求,研制了三类亲水性压敏胶及两种药物纳米载体材料,并对其性能进行了研究。
In this study, three kinds of hydrophilic pressure sensitive adhesives and two kinds of nanocarrier materials were prepared for technology requirement of TDDS and their properties were investigated.
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