中国组织工程研究与临床康复
中國組織工程研究與臨床康複
중국조직공정연구여림상강복
JOURNAL OF CLINICAL REHABILITATIVE TISSUE ENGINEERING RESEARCH
2010年
12期
2149-2152
,共4页
涂松%李文龙%陈元维%罗祥林
塗鬆%李文龍%陳元維%囉祥林
도송%리문룡%진원유%라상림
星形聚己内酯%叶酸%胶束%β-胡萝卜素%控制释放载体材料
星形聚己內酯%葉痠%膠束%β-鬍蘿蔔素%控製釋放載體材料
성형취기내지%협산%효속%β-호라복소%공제석방재체재료
背景:近年来,在药物载体材料领域,两亲性星形聚合物的自组装胶束化引起了人们的关注.叶酸官能团作为肿瘤靶向基团被越来越多地引入药物载体,显示出了良好的靶向效应.目的:制备一种新型的末端接叶酸的星形聚己内酯(StarPCL-FA)材料胶束,并对其性质进行表征,为其在控释给药系统中的应用提供基本依据.方法:以四氢呋喃为溶剂,采用溶剂挥发法制备StarPCL-FA的胶束溶液.动态光散射粒度仪、透射电子显微镜测量胶束的粒径和表面形貌;考察稀释对胶束粒径的影响及水中胶束粒径随时间的变化情况;采用芘荧光探针技术测定共聚物的临界胶束质量浓度;用β-胡萝卜素作为模型药物对胶束载药量进行研究.结果与结论:成功制备了星形聚合物StarPCL-FA胶束,胶束的粒径为纳米级,临界胶束质量浓度值较低,胶束对稀释较为稳定,且能在37℃的水中较长时间稳定存在,但随着时间延长,出现粒径轻微增大现象,说明胶束在水中能够稳定存在且对稀释的稳定性较好,这对于其在注入人体时避免药物的暴释具有重要意义.另外用β-胡萝卜素作为模型药物对胶束载药量研究表明其载药量为3.0%~4.0%.说明胶束对β-胡萝卜素有包载能力,但其载药能力还有待提高.
揹景:近年來,在藥物載體材料領域,兩親性星形聚閤物的自組裝膠束化引起瞭人們的關註.葉痠官能糰作為腫瘤靶嚮基糰被越來越多地引入藥物載體,顯示齣瞭良好的靶嚮效應.目的:製備一種新型的末耑接葉痠的星形聚己內酯(StarPCL-FA)材料膠束,併對其性質進行錶徵,為其在控釋給藥繫統中的應用提供基本依據.方法:以四氫呋喃為溶劑,採用溶劑揮髮法製備StarPCL-FA的膠束溶液.動態光散射粒度儀、透射電子顯微鏡測量膠束的粒徑和錶麵形貌;攷察稀釋對膠束粒徑的影響及水中膠束粒徑隨時間的變化情況;採用芘熒光探針技術測定共聚物的臨界膠束質量濃度;用β-鬍蘿蔔素作為模型藥物對膠束載藥量進行研究.結果與結論:成功製備瞭星形聚閤物StarPCL-FA膠束,膠束的粒徑為納米級,臨界膠束質量濃度值較低,膠束對稀釋較為穩定,且能在37℃的水中較長時間穩定存在,但隨著時間延長,齣現粒徑輕微增大現象,說明膠束在水中能夠穩定存在且對稀釋的穩定性較好,這對于其在註入人體時避免藥物的暴釋具有重要意義.另外用β-鬍蘿蔔素作為模型藥物對膠束載藥量研究錶明其載藥量為3.0%~4.0%.說明膠束對β-鬍蘿蔔素有包載能力,但其載藥能力還有待提高.
배경:근년래,재약물재체재료영역,량친성성형취합물적자조장효속화인기료인문적관주.협산관능단작위종류파향기단피월래월다지인입약물재체,현시출료량호적파향효응.목적:제비일충신형적말단접협산적성형취기내지(StarPCL-FA)재료효속,병대기성질진행표정,위기재공석급약계통중적응용제공기본의거.방법:이사경부남위용제,채용용제휘발법제비StarPCL-FA적효속용액.동태광산사립도의、투사전자현미경측량효속적립경화표면형모;고찰희석대효속립경적영향급수중효속립경수시간적변화정황;채용비형광탐침기술측정공취물적림계효속질량농도;용β-호라복소작위모형약물대효속재약량진행연구.결과여결론:성공제비료성형취합물StarPCL-FA효속,효속적립경위납미급,림계효속질량농도치교저,효속대희석교위은정,차능재37℃적수중교장시간은정존재,단수착시간연장,출현립경경미증대현상,설명효속재수중능구은정존재차대희석적은정성교호,저대우기재주입인체시피면약물적폭석구유중요의의.령외용β-호라복소작위모형약물대효속재약량연구표명기재약량위3.0%~4.0%.설명효속대β-호라복소유포재능력,단기재약능력환유대제고.
BACKGROUND: Recently, the interest in micellization of amphiphilic star-shaped polymer has exponentially increased in the fielc of drug delivery. Folic acid (FA) has been introduced into drug delivery system as tumor targeting group and shows excellent targeting effect.OBJECTIVE: To prepare a new class of folic acid end functionalized star-shaped poly (e-caprolactone) (StarPCL-FA) micelle, and investigate its property in order to draw a basic line for its application in drug delivery system. METHODS: Micelles were prepared by means of solvent evaporation, using tetrahydrofuran (THF) as organic phase. Size and morphology of micelle were detected using dynamic light scattering device and transmission electron microscope; the effect of dilution on the micelle size with time prolonging was measured; critical micellization concentration (CMC) was detected using pyrene fluorescence probe spectrometry; drug loading efficiency and encapsulation efficiency were measured based on P-carotene.RESULTS AND CONCLUSION: Polymer micelle was successfully prepared with StarPCL-FA, the size of resulting micelle was nano-scale, CMC was relatively low, and the micelle was stable with dilution and existed for a long time in pure water. However, a slightly increase of the size was observed with time prolonging. The micelle prepared was stable in water with time and with dilution, which was essential for drug delivery because the burst-like release of drug from micelles could be avoided when injected into blood stream. In addition, the drug loading efficiency with β-carotene as model drug was measured about 3%-4 %. The micelle had an ability of loading p-carotene; however the loading efficiency could be further improved.
