国际生物医学工程杂志
國際生物醫學工程雜誌
국제생물의학공정잡지
INTERNATIONAL JOURNAL OF BIOMEDICAL ENGINEERING
2014年
1期
1-5,后插1
,共6页
董一辰%曾小伟%陶伟%高永峰%梅林%黄来强
董一辰%曾小偉%陶偉%高永峰%梅林%黃來彊
동일신%증소위%도위%고영봉%매림%황래강
星型共聚物%多烯紫杉醇%纳米粒%药物传递
星型共聚物%多烯紫杉醇%納米粒%藥物傳遞
성형공취물%다희자삼순%납미립%약물전체
Star-shaped copolymer%Docetaxel%Nanoparticles%Drug delivery
目的 本研究合成了一种星型的甘露醇引发的聚(乳酸-羟基乙酸)共聚物(M-PLGA),旨在提供一种新型的纳米制剂用于宫颈癌的治疗.方法 这种新型的共聚物通过开环聚合合成,利用核磁共振仪进行表征.采用改进的纳米沉淀法制备载多烯紫杉醇M-PLGA纳米粒并在扫描电镜下观察纳米粒的形态.结果 M-PLGA纳米粒粒径分布较窄,在人宫颈癌Hela细胞中的摄取水平要高于PLGA纳米粒.载多烯紫杉醇的M-PLGA纳米粒对Hela细胞的毒性显著高于商用的泰素帝和载多烯紫杉醇的PLGA纳米粒,证明星型M-PLGA聚合物作为纳米药物载体优于线型PLGA聚合物;同时,星型M-PLGA的载药量也明显高于线型聚合物.结论 星型M-PLGA共聚物可作为一种极具潜力的用于宫颈癌治疗的纳米载体材料.
目的 本研究閤成瞭一種星型的甘露醇引髮的聚(乳痠-羥基乙痠)共聚物(M-PLGA),旨在提供一種新型的納米製劑用于宮頸癌的治療.方法 這種新型的共聚物通過開環聚閤閤成,利用覈磁共振儀進行錶徵.採用改進的納米沉澱法製備載多烯紫杉醇M-PLGA納米粒併在掃描電鏡下觀察納米粒的形態.結果 M-PLGA納米粒粒徑分佈較窄,在人宮頸癌Hela細胞中的攝取水平要高于PLGA納米粒.載多烯紫杉醇的M-PLGA納米粒對Hela細胞的毒性顯著高于商用的泰素帝和載多烯紫杉醇的PLGA納米粒,證明星型M-PLGA聚閤物作為納米藥物載體優于線型PLGA聚閤物;同時,星型M-PLGA的載藥量也明顯高于線型聚閤物.結論 星型M-PLGA共聚物可作為一種極具潛力的用于宮頸癌治療的納米載體材料.
목적 본연구합성료일충성형적감로순인발적취(유산-간기을산)공취물(M-PLGA),지재제공일충신형적납미제제용우궁경암적치료.방법 저충신형적공취물통과개배취합합성,이용핵자공진의진행표정.채용개진적납미침정법제비재다희자삼순M-PLGA납미립병재소묘전경하관찰납미립적형태.결과 M-PLGA납미립립경분포교착,재인궁경암Hela세포중적섭취수평요고우PLGA납미립.재다희자삼순적M-PLGA납미립대Hela세포적독성현저고우상용적태소제화재다희자삼순적PLGA납미립,증명성형M-PLGA취합물작위납미약물재체우우선형PLGA취합물;동시,성형M-PLGA적재약량야명현고우선형취합물.결론 성형M-PLGA공취물가작위일충겁구잠력적용우궁경암치료적납미재체재료.
Objective Mannitol-poly(D,L-lactide-co-glycolide) (M-PLGA),a star-shaped biodegradable polymer,was synthesized with the intent in this research,to provide novel nanoformulation for cervical cancer chemotherapy.Methods The novel star-shaped copolymer was prepared by ring-opening polymerization,and characterized by NMR.The docetaxel-loaded M-PLGA nanoparticles,prepared by modified nano-precipitation method,were observed to be near-spherical shape with narrow size distribution.Results The CLSM results showed the uptake level of M-PLGA NPs was higher than PLGA NPs in Hela cells.A significantly higher level of cytotoxicity was achieved by docetaxel-loaded M-PLGA NPs than that of commercial Taxotere and docetaxel-loaded PLGA NPs,indicating that the star-shaped biodegradable polymer M-PLGA could be superior to the linear polymer PLGA as a drug carrier.The study on drug loading and encapsulation efficiency also proved that star-shaped M-PLGA could carry higher level of drug than linear polymer,therefore could be more efficient for cancer treatment.Conclusions In conclusion,the star-shaped M-PLGA copolymer may be used as a potential and promising drug-loaded biomaterial applied in developing novel nanoformulations for cervical cancer therapy.
