结论:以琼脂凝胶微球载体,通过交联、活化和固定配基色氨酸成功制备免疫球蛋白e免疫吸附剂。
CONCLUSION: IgE immunoadsorbent is successfully prepared through cross-linking, activation of AGAR gel beads and immobilization of tryptophan ligand.
以磁性壳聚糖微球为载体固定漆酶。
The laccase was immobilized on the magnetic chitosan microspheres.
磁性高分子微球一方面具有与生物活性物质反应的特殊功能基团,可以作为生物活性物质的载体;
In one hand, the magnetic polymer microspheres have special functional group which can react with biological active matter and are used as supporter on biological active matter.
按载体分类综述了近年来的脂质体、微球、纳米粒、乳剂等几类中药靶向给药系统的研究进展。
Recent advances of research on TODDSs of CMM classified according to carriers, such as liposomes, microspheres, nanocapsules, and emulsions are reviewed.
然后,以壳聚糖微球为载体,用吸附-交联的联合固定化方法制备固定化木瓜蛋白酶,并研究了木瓜蛋白酶的最佳固定化条件。
Then as the carrier, the chitosan microspheres were used to immobilize papain by absorption crosslinking method. The optimum conditions for immobilization were studied.
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.
可生物降解微球作为鼻腔免疫疫苗的载体有延长免疫时间、增强免疫作用等优点。
As a delivery system for nasal immunization vaccines, biodegradable microspheres have several advantages such as extending immunization time and enhancing immune response.
以其为载体制备纳曲酮微球,比较了体外释药速率。
Invitro release of naltrexone microspheres prepared with the various PLGA were compared.
实验结果表明,纤维素磁性微球作为性能优良的新型磁性载体,更适于目的蛋白的免疫磁性分离。
The result suggested that MCMS were much more suitable for purification of aim proteins than other microspheres and showed an extensive application foreground for immunomagnetic separation.
方法以聚乳酸为载体材料,OW型乳化挥发法制备氟尿嘧啶微球;
METHODS An O/W emulsion-solvent evaporation method was used to prepare fluorouracil sustained release microspheres.
本项目把磁性微球固定在有良好的生物相容性的碳纤维表面,制备出免疫吸附磁性涂层碳纤维载体。
In this project, magnetic microspheres were fixed on the surface of the good biocompatibility carbon fibers to prepare immunoadsorption magnetic coated carbon fiber carrier.
方法采用固体分散载体和阻滞性高分子材料,使用固体分散与球晶制粒相结合的技术制备水飞蓟宾缓释微球。
Methods Sustained-release silybin microspheres were prepared by the spherical crystallization technique with solid-dispersing and release-retarding polymers.
本发明的聚丙烯酸纳米凝胶微球,可以用作为药物的载体,特别是用作为蛋白质药物的载体。
The polyacrylic acid nano-gel microspheres of the invention can be used as a carrier of a medicament, in particular the carrier of a protein medicament.
公开了一种使用喷雾干燥制备缓释微球的方法,所述微球包含作为载体的生物可降解聚合物和药物。
The present invention discloses a process of preparing sustained release microspheres, containing a biodegradable polymer as a carrier and a drug, using spray drying.
可生物降解高分子材料具有良好的生物相容性。聚合物和降解产物对机体毒副作用小,已成为微球等新药物剂型的重要载体材料。
Biodegradable polymer materials had good biocompatibility. Polymer and degradation product had small toxicity to the body, which become new drug major carriers of microsphere formulations.
磁性微球作为靶向药物载体有利于提高药物疗效,降低药物的毒副作用,为化疗药物的临床应用开辟了新途径。
The magnetic microspheres may be an alternative of cancer cure, with better anticancer efficacy and less side effects as vehicles for the targeting drug agent.
方法:以鸡新城疫病毒(NDV)作为疫苗模型药物、乳酸-羟基乙酸共聚物(PLGA)为载体材料,采用W/O/W复乳-溶剂挥发法制备NDV-PLGA口服微球。
METHODS:Newcastle dis-ease virus(NDV)vaccine was used as model drug, and PLGA as carrying agent to prepare NDV-PLGA oral microspheres by W/O/W emulsifying-solvent evaporation technique.
以聚乳酸为载体材料制备阿奇霉素微球(AZMMS)并考察其体外释药特性。
To prepare microsphere containing Azithromycin(AZM) with polylactic acid, and investigate the characteristics of AZM microsphere (AZMMS)in vitro release.
制得的三维胶体光子晶体微球结构有序稳定,可用作性能稳定的编码载体。
The 3d colloidal crystal beads could be used as the stable microcarriers for coding according to their stable ordered structure.
方法以生物降解材料明胶为载体,采用乳化交联法制备炎琥宁明胶微球;
METHODS P-GMS were prepared by emulsion chemical cross-linking method using gelatin as wall material.
方法以生物降解材料明胶为载体,采用乳化交联法制备炎琥宁明胶微球;
METHODS P-GMS were prepared by emulsion chemical cross-linking method using gelatin as wall material.
应用推荐