这条路引领着他成为药物控制释放和组织工程的先锋人物。
The path led him to be a pioneer of controlled drug release and tissue regeneration.
本文主要介绍药物控制释放的种类、机理、高分子材料及其应用。
In this article, the types, mechanisms, materials and applications of the controlled release of drug are discussed.
目的探讨药物控制释放载体与组织工程载体的制备方法与结构形态。
Objective To explore the preparation methods and structural morphology of the carries for drug-controlled release and the tissue engineering.
方法应用药物控制释放技术,采用生物降解高分子对药物进行包埋或微包囊。
Methods Using drug controlled release technique that to embed or microcapsulate the biological drug with biodegradable polymer.
综述了聚合物药物控制释放机理及其在换膜、口服、注射、植入等领域的研究进展。
In this paper we discuss mechanisms of controlled drug delivery systems and examine progress in polymer materials for controlled drug release were discussed.
本论文针对普通药物剂型和给药方式的不足,开展靶向性药物控制释放新制剂的研究。
In this thesis, a significant research on targeted drug-loaded magnetic polymer microspheres has been carried out as to the deficiency of normal drug administration.
这种新型药物控制释放系统在细胞因子的控制释放及骨组织工程中有潜在的应用价值。
Such a novel type of controlled release system has the potential of being applied for controlled cytokine delivery and the bone tissue engineering.
目的研究应用药物控制释放技术,在组织工程中实现对生长因子的活性保护和控制释放。
Objective To investigate protection of biological activity and controlled release of growth factor by means of drug controlled release technique in tissue engineering.
这种新型药物控制释放系统在细胞因子的控制释放及软骨组织工程中有潜在的应用价值。
Such a novel type of controlled release system may have potential to be applied for controlled cytokine delivery and the cartilage tissue engineering.
综述了可生物降解的高分子材料聚天各酰胺及其衍生物作为载体在药物控制释放中的应用。
The USES of biodegradable polymers poly-asparagine and its derivatives, as carriers in controlled drug release are reviewed.
其中,可注射水凝胶因其独特的溶胶-凝胶相转变性质,在药物控制释放领域有着广泛应用。
The injectable hydrogel for its unique phase transition behavior is expected to be widely used in the field of drug release.
做为药物控制释放载体的智能水凝胶,通常由于差的机械性能和慢的响应速度限制了它的实际应用。
However, the applications of the intelligent hydrogels for controlled drug delivery have been limited by the poor mechanical properties and slow response rate.
本发明的水凝胶可作为生物可降解材料在药物控制释放、组织工程、土壤蓄水或沙漠治理等领域中应用。
The hydrogel can act as biodegradable material to be used in the fields of medicine controlled release, tissue engineering, soil water storage or desert control, etc.
本文就SELP的生物合成、性质及其水凝胶作为新型的生物材料基质在药物控制释放方面的应用做一综述。
This review will focus on the biosynthesis and characteristic of SELP, as well as the applications of SELP hydrogel as a novel biomedical matrix in controlled drug delivery system.
该研究为生物医学以壳聚糖作载体的丝网型药物控制释放系统和抗菌功能性纺织品的制备,提供了可批量生产的理想素材。
The product produced in this research should provide material for drug delivery vehicle with controlling to release made from the fluff and producing of antibacterial textile by wholesale manufacture.
对药物的释放速度可通过改变控制粒子的大小,树脂交联的程度及树脂的化学性质。
The rate of release of drugs can be controlled by varying the particle size, degree of cross-linking and the chemistry of resin.
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.
微球大小对药物释放率有很重要的影响,人们认为可以改变其大小以建立一个药物释放符合需要能够控制药物释放的体系。
Microsphere size, which has a significant effect on drug release rate, can potentially be varied to design a controlled drug delivery system with desired release profile.
眼部药物传递作为控制释放领域的重要分支近二十年来备受人们的关注。
As one of the important fields of controlled release, ophthalmic drug delivery has received extensive interests during the last two decades.
NLC具有的特殊结构可以提高其载药能力和制剂的稳定性,能有效的控制药物的释放。
The special structure of NLC improves its drug-loading capacity and stability, and effectively controls the release of drugs.
本发明涉及一类肿瘤靶向性大分子控制释放抗癌药物及制备方法和用途。
The invention relates to a tumor targeting macromolecule controlled release anticancer drug and a preparation method and USES thereof.
结论囊泡型磷脂凝胶作为一种新型给药系统,在控制药物释放、提高抗肿瘤活性、增加药物稳定性等方面显示独特的优势。
Conclusions As a new drug delivery system, VPG is advantageous in controlling drug release, enhancing the activity of anti-tumor drugs and improving the long term stability.
对最终体系进行的体外药物布洛芬(IBU)的装载和释放测试表明,该体系在温度响应控制药物释放方面有着较大的潜在应用前景。
The in vitro test of IBU loading and release illustrated the system had a great potential use for thermo-responsive controlled drug-release.
同时介绍了结晶技术在药物晶型控制、压缩性能和释放性能改进方面的应用。
At the same time, the application of crystallization technology in controlling particle morphology, improving compression and delivery properties is introduced also.
生物可降解型高分子载体控制释放药物和生物可降解型高分子载体靶向药物是近年来高分子药物研究的重点。
Biodegradable macromolecule carried controlled drug releasing and biodegradable macromolecule carried targeted drug delivery are the focus of recent investigation in macromolecular medicine.
因此有必要开发具有较好稳定性的缓释栓剂,可以有效地控制药物释放速度,降低副反应:减少服药次数,提高病人顺应性。
It's necessary to develop a sustained release suppository with good stability to reduce the frequency of administration and improve patients' compliance.
药物的控制释放体系是生物医用材料研究领域的重要课题,其支撑点是要有性能良好的高分子药物载体。
The controlled drug release systems are an important research field in biomedical materials applications. Its effectiveness largely depends on the good properties of drug carriers.
利用微针阵列实行局部定时地释放药物、控制药量,微针阵列的研制是微驱动器的关键。
With the development of the Micro Electro-Mechanical System(MEMS), it becomes possible for microneedles array to strengthen the transdermal drug delivery.
利用微针阵列实行局部定时地释放药物、控制药量,微针阵列的研制是微驱动器的关键。
With the development of the Micro Electro-Mechanical System(MEMS), it becomes possible for microneedles array to strengthen the transdermal drug delivery.
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