目的综述固脂纳米粒作为药物释放系统的最新研究进展。
Objective To review the new research development of the solid lipid nanoparticles as a drug delivery system.
正确评价和选择更有效的药物释放系统是研究的重要课题。
To evaluate these drugs and select more effective drug delivery system are very important tasks.
这种所谓的智能药物释放系统还可用于心脏及其他疾病的治疗。
This so-called intelligent drug release is also used to treat heart disease and other diseases.
聚合物间的这种特殊的互聚物复合形成现象可用于设计具有不同释药行为的药物释放系统。
This specific property of interpolymer complexation may be utilized to design drug delivery systems of various release behaviors.
下一步是要找到比注射更好的药物释放系统;胶体与火柴棒大小的植入剂都已在讨论范围内。
The next step is to find a more appealing delivery system than shots; both a gel and a matchstick-sized implant have been discussed.
据该奖金委员会称,每年有超过一亿的患者应用该先进的药物释放系统,且该数量在快速增长。
Over 100 million people a year use advanced drug delivery systems, a number that is rising rapidly, according to the prize committee.
介绍PLA -PEG嵌段共聚物的合成和性质,综述其作为胶束、微球、纳米粒等的载体在药物释放系统中的应用。
Syntheses and properties of PLA-PEG block copolymers were introduced, and their applications for micelles, microspheres and nanoparticles in drug delivery system were also reviewed.
所有成瘾药物和行为都刺激着多巴胺释放系统。
All addictive drugs and activities elevate the dopamine release system.
煮汤的时候会释放出来一种氨基酸,这和药物乙酰半胱氨酸很相似,这种药物被用来治疗支气管炎和呼吸系统的疾病。
There, Stone tells us, cooking the soup releases an amino acid that resembles the drug acetylcysteine, which is used to treat bronchitis and other respiratory ailments.
建立一种新型的药物缓释系统,以研究抗炎药萘普生在该系统中的释放规律。
A newly intelligent drug delivery system was established to research the releasing of naproxen in the systems.
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.
背景与目的:口服结肠靶向给药系统(OCDDS)是一种将药物定位释放于结肠的靶向制剂。
Background and Objective: OCDDS (Oral Colon-specific drug delivery system) is a kind of drug target delivery systems, which can deliver drug at colon.
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.
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.
该载药生物活性多层膜的药物释放曲线表明,该含药多层膜系统的药物释放方式为扩散方式,释放周期是45天左右。
The drug releasing curve of the multilayer film loading drug indicates that the drug releasing mode is diffusion and releasing period is about 45 days.
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.
药物的初始释放速率和传统经皮给药控释系统相近,释药量与储库层药物含量无关;
The release rate of composite patches was similar to that of traditional patches at the beginning but was larger on average.
提出一种新型的胶囊式药物释放微机电系统的设计模型。
以组分的连续性方程为基础,建立了药物从多孔骨架聚合物系统中释放的数学模型。
A mathematical model describing the drug release from porous polymer was established by using the species continuity equation.
方法:使用研制的光纤化学传感药物溶出度过程分析仪器系统,实时监测多种药物溶出和释放过程。
Methods: a new fiber optical chemical sensor procession analysis system was established to on-line monitor the drug dissolution.
本文分析了微型药物释放机器人的功能要求,提出了系统性的解决方案。
Based on analyzing the functional requirements of micro drug release robot, a systemic solution was proposed.
脉冲释药系统是根据临床上治疗的需要,能定时释放药物的一种剂型,可用来治疗某些节律性发作的疾病。
Pulsed drug delivery system, which is capable of releasing drug after pre determined time to address clinically therapeutic requirements, is used to treat rhythm diseases.
结果表明这种壳交联的胶束在药物控释方面具有良好的稳定性,可以在药物运输释放系统研究方面具有良好的应用前景。
The results show that the crosslinked micelles for controlled drug delivery has good stability, has a good prospect in the release drug delivery system.
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.
探讨了前药的体外释药性能,前药系统在中性和酸性磷酸盐缓冲液中均能释放出活性药物分子。
Nanoparticles were well-dispersed with spherical shape, and their surface zeta potentials were slightly positive. The kinetics of hydrolysis for drug delivery system was investigated.
探讨了前药的体外释药性能,前药系统在中性和酸性磷酸盐缓冲液中均能释放出活性药物分子。
Nanoparticles were well-dispersed with spherical shape, and their surface zeta potentials were slightly positive. The kinetics of hydrolysis for drug delivery system was investigated.
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