English
往期目录
新闻公告
More
化学进展 2009, Vol. 21 Issue (05): 880-889 前一篇   后一篇

• 金属药物专辑 •

单分散磁性纳米粒子靶向药物载体*

张吉林1**;洪广言1;倪嘉缵1,2   

  1. (1. 中国科学院长春应用化学研究所稀土资源利用国家重点实验室 长春130022;2. 深圳大学生命科学学院 深圳 578060)
  • 收稿日期:2008-12-09 修回日期:2009-01-27 出版日期:2009-05-24 发布日期:2009-05-05
  • 通讯作者: 张吉林 E-mail:zjl@ciac.jl.cn
下载PDF ( 3366 ) 引用
导出

Monodisperse Mangetic Nanoparticles Carriers for Targeting Drug

Zhang Jilin1**;  Hong Guangyan1;   Ni Jiazuan1,2   

  1. (1. State Key Laboratory of Rare Earth Resource Utilization, Changchun Institute of
    Applied Chemistry, Chinese Academy of Sciences, Changchun 130022, China; 2. College of Life Science, Schenzhen University, Shenzhen 518060, China)
  • Received:2008-12-09 Revised:2009-01-27 Online:2009-05-24 Published:2009-05-05
  • Contact: Zhang Jilin E-mail:zjl@ciac.jl.cn

本文综述了单分散磁性氧化铁纳米粒子的主要制备方法、表面修饰以及在生物医学靶向药物方面的应用研究进展。金属有机前驱体高温热分解法、溶剂热合成法和LSS(liquid-solid-solution)法是目前制备高质量单分散磁性纳米粒子比较有效的手段。通过表面修饰制备出的具有良好水溶性、生物相容性和活性功能基团的磁靶向药物载体将可能实现定位蓄积、高效载药、控制释药和可生物降解等靶向治疗癌症的目的。开发出具有荧光检测、主动靶向识别、高效载药、智能控药释放、无毒副作用和生物相容性于一体的多功能靶向药物载体将是其发展趋势。

关键词: 氧化铁, 磁性纳米粒子, 表面修饰, 靶向药物

The progress of preparation method and surface modification of monodisperse magnetic iron oxide nanoparticles, as well as their application in the magnetic targeted drug are reviewed. The synthetic methods such as thermal decomposition of organometallic precursors, solvothermal, and LSS(liquid-solid-solution) methods are comparatively effective means to prepare monodisperse magnetic nanoparticles of high quality. The magnetic drug-targeting carriers with good water-solubility, biology compatibility, and active functional groups are fabricated by surface modification technique. They would attain site-specific accumulation, effective drug-loading, controllable drug-releasing, biodegradablity to fulfill the requirment of targeted drug for cancer. Development of the multifunctional drug-targeting carrier with fluorescent detectabilty, active recognition-targeting, effective drug-loading, smart controlled drug release, no side-effect, and biology compatibility will be a tendency in the future.

Contents
1 Introduction
2 Preparation of monodisperse magnetic nanoparticles
2.1 Formation mechanisms of monodisperse nanoparticles
2.2 Preparation methods
3 Surface modification of magnetic nanoparticles
3.1 Monodispersion and stability
3.2 Water-solubility and biocompatibility
3.3 Biological active groups
4 Magnetic drug-targeting carriers
4.1 Magnetic field guiding acting force
4.2 Composition of magnetic drug-targeting carriers
4.3 Magnetic drug microsphere and magnetic liposome carriers
4.4 Monodisperse magnetic nanoparticle carriers
5 Prospect

Key words: iron oxide, magnetic nanoparticles, surface modification, targeted drug

中图分类号: 

()

[ 1 ]  Hyeon T. Chem. Commun. , 2003 , 8 : 927 —934
[ 2 ]  Park J , Joo J , Hyeon T, et al . Angew. Chem. Int . Ed. , 2007 , 46(25) : 4630 —4660
[ 3 ]  Wang X, Li Y. Chem. Commun. , 2007 , 28 : 2901 —2910
[ 4 ]  Cushing B L , Kolesnichenko V L , O′Connor C J . Chem. Rev. ,2004 , 104 : 3893 —3946
[ 5 ]  Jeong U , Tang X, Wang Y, et al . Adv. Mater. , 2007 , 19 : 33 —60
[ 6 ]  Arruebo M, Fernández-Pacheco R , Ibarra M R , et al . J .Nanotoday , 2007 , 2 (3) : 22 —32
[ 7 ]  Xu C , Sun S. Polym. Int . , 2007 , 56 (7) : 821 —826
[ 8 ]  何运兵(He YB) , 邱祖民(Qiu ZM) , 佟珂(Tong K) . 化工科技(Science & Technology in Chemical Industry) , 2004 , 12 ( 6 ) :52 —57
[ 9 ]  Cushing B L , Kolesnichenko V L , O’Connor C. Chem. Rev. ,2004 , 104 : 3893 —3946
[10 ]  Masala O , Seshadri R. Annu. Rev. Mater. Res. , 2004. 34 :41 —81
[11 ]  杨文胜(Yang W S) , 高明远(Gao M Y) , 白玉白(Bai YB) . 纳米材料与生物技术(Nanomaterials and Biotechnology) . 北京: 化学工业出版社(Beijing : Chemical Industry Press) , 2005. 54/55 :74 —75
[12 ]  Rockenberger J , Scher E C , Alivisatos A P. J . Am. Chem. Soc. ,1999 , 121 : 11595 —11596
[13 ]  Hyeon T, Lee S S , Park J , et al . J . Am. Chem. Soc. , 2001 , 123(51) : 12798 —12801
[14 ]  Park J , Lee E , Hyeon T, et al . Angew. Chem. Int . Ed. , 2005 , 44(20) : 2872 —2877
[15 ]  Euliss L E , Grancharov S G, O’Brien S , et al . Nano Lett . , 2003 ,3 (11) : 1489 —1493
[16 ]  Sun S , Zeng H. J . Am. Chem. Soc. , 2002 , 124 (28) : 8204 —8205
[17 ]  Sun S , Zeng H , Robinson D B , et al . J . Am. Chem. Soc. , 2004 ,126 (1) : 273 —279
[18 ]  Zeng H , Rice M, Wang S X, Sun S. J . Am. Chem. Soc. , 2004 ,126 (37) : 11458 —11459
[19 ]  Sun S , Murray C B , Weller D , et al . Science , 2000 , 287 : 1989 —1992
[20 ]  Shevchenko E V , Talapin D V , Rogach A L , et al . J . Am. Chem.Soc. , 2002 , 124 : 11480 —11485
[21 ]  Farrell D , Majetich S A , Wilcoxon J P. J . Phys. Chem. B. , 2003 ,107 (40) : 11022 —11030
[22 ]  Zeng H , Jing Li J , Wang Z L , et al . Nano Lett . , 2004 , 4 (1) :187 —190
[23 ]  Sun S. Adv. Mater. , 2006 , 18 (4) : 393 —403
[24 ]  Yu WW, Falkner J C , Yavuz C T, et al . Chem. Commun. , 2004 ,2306 —2307
[25 ]  Li Z, Chen H , Bao H , et al . Chem. Mater. , 2004 , 16 ( 8) :1391 —1393
[26 ]  Li Z, Sun Q , Gao M. Angew. Chem. Int . Ed. , 2005 , 44 (1) :123 —126
[27 ]  Peng S , Sun S. Angew. Chem. Int . Ed. , 2007 , 46 (22) : 4155 —4158
[28 ]  Fan HJ , Gêsele U , Zacharias M. Small , 2007 , 3 (10) : 1660 —1671
[29 ]  Wang X, Li Y. Chem. Commun. , 2007 , (28) : 2901 —2910
[30 ]  Wang X, Zhuang J , Peng Q , et al . Nature , 2005 , 437 : 121 —124
[31 ]  Sunderland CJ , Steiert M, Talmadge J E , et al . Drug. Dev. Res. ,2006 , 67 : 70 —93
[32 ]  张阳德编著(Ed. Zhang YD) . 纳米药物学(Nanopharmacology) .北京: 化学工业出版社(Beijing : Chemical Industry Press) ,2006. 108 —125
[33 ]  张阳德(Zhang YD) , 张洋(Zhang Y) , 潘一峰(Pan Y F) . 中国医学工程(China Medical Engineering) , 2006 , 14 (2) : 148 —152
[34 ]  Owens III D E , Peppas N A. International Journal of Pharmaceutics ,2006 , 307 : 93 —102
[35 ]  Wang Y, Wong J F , Teng X, et al . Nano Lett . , 2003 , 3 (11) :1555 —1559
[36 ]  Pellegrino T, Manna L , Kudera S , et al . Nano Lett . , 2004 , 4 (4) :703 —707
[37 ]  Woo K, Hong J . IEEE Transactions on Magnetics , 2005 , 14 (10) :4137 —4139
[38 ]  Mikhaylova M, Kim D K, Berry C C , et al . Chem. Mater. , 2004 ,16 (12) : 2344 —2354
[39 ]  Huh Y M, Jun Y W, Song H T, et al . J . Am. Chem. Soc. , 2005 ,127 (35) : 12387 —12391
[40 ]  Sousa M H , Rubim J C , Sobrinho P G, et al . J . Magn. Magn.Mater. , 2001 , 225 (1P2) : 67 —72
[41 ]  Zhang J L , Srivastava R S , Misra R D K. Langmuir , 2007 , 23 :6342 —6351
[42 ]  Zhang Y, Kohler N , Zhang M. Biomaterials , 2002 , 23 (7) : 1553 —1561
[43 ]  Kim M, Chen Y, Liu Y, et al . Adv. Mater. , 2005 , 17 : 1429 —1432
[44 ]  赵紫来(Zhao ZL) , 卞征云(Bian Z Y) , 陈朗星(Chen L X) 等.化学进展(Progress in Chemistry) , 2006 , 18 (10) : 1288 —1296
[45 ]  甘志锋(Gan Z F) , 姜继森(Jiang J S) . 化学进展( Progress in Chemistry) , 2005 , 17 (6) : 978 —986
[46 ]  Freeman M W. J . Appl . Phys. , 1960 , 31 (5) : S404 —S405
[47 ]  Dobson J . Drug. Dev. Res. , 2006 , 67 : 55 —60
[48 ]  H?feli U O. International Journal of Pharmaceutics , 2004 , 277 (1/2) : 19 —24
[49 ]  赵慧君(Zhao HJ ) , 王德平(Wang D P) , 黄文旦(Huang W D)等. 同济大学学报( 医学版) ( Journal of Tongji University(Medical Science) ) , 2003 , 24 (4) : 288 —291
[50 ]  田洁(Tian J ) , 周俊(Zhou J ) , 逄秀娟(Pang XJ ) . 中国药剂学杂志(Chinese Journal of Pharmaceutics) , 2007 , 5 (4) : 205 —215
[51 ]  徐华(Xu H) , 宋涛(Song T) . 国外医学生物医学工程分册(Biomedical Engineering Foreign Medical Science) , 2004 , 27 (1) :61 —63
[52 ]  Ito A , Shinkai M, Honda H , et al . Journal of Bioscience and Bioengineering , 2005 , 100 (1) : 1 —11
[53 ]  周平红(Zhou P H) , 姚礼庆(Yao L Q) , 秦新裕(Qin X Y) . 中国临床医学(Clinical Medical Journal of China) , 2003 , 10 (5) :773 —774
[54 ]  Devineni D , Klein S A , Gallo J M. J . Neuro2Oncology , 1995 , 24(5) : 143 —152
[55 ]  陶凯雄(Tao K X) , 孙宏武(Sun H W) , 陈道达(Chen D D) , 吴在德(Wu Z D) , 田源(Tian Y) , 杨秀萍(Yang X P) . 中华实验外科杂志(Chin. J . Exp. Surg. ) , 2000 , 17 (1) : 63 —64
[56 ]  Lübbe A S , Bergemann C , Riess H , et al . Cancer Res. , 1996 , 56 :4686 —4693
[57 ]  Lübbe A S , Bergemann C , Huhnt W, et al . Cancer Res. , 1996 ,56 : 4694 —2701
[58 ]  徐慧显(Xu H X) , 李民勤(Li MQ) , 潘再群(Pan ZQ) , 马建标(Ma J B) , 何炳林( He B L ) . 生物化学杂志( Chinese Biochemical Journal) , 1996 , 12 (6) : 744 —766
[59 ]  郭军(Guo J ) , 李澄(Li D) , 吴汉江(Wu HJ ) . 南京铁道医学院学报(Journal of Nanjing Railway Medical College) , 2000 , 19 (2) :112 —114
[60 ]  Asmatulu R , Zalichb M A , Claus R O , et al . Journal of Magnetism and Magnetic Materials , 2005 , 292 : 108 —119
[61 ]  Kohler N , Sun C , Wang J , et al . Langmuir , 2005 , 21 ( 19 ) :8858 —8864
[62 ]  Detlef M S , Thomas S R. Journal of Magnetism and Magnetic Materials , 2006 , 302 (1) : 267 —271
[63 ]  Sunderland CJ , Steiert M, Talmadge J E , et al . Drug. Dev. Res. ,2006 , 67 : 70 —93
[64 ]  Zhang J L , Misra R D K. Acta Biomaterialia , 2007 , 3 : 838 —850
[65 ]  Gao J , Liang G, Cheung J S , et al . J . Am. Chem. Soc. , 2008 ,130 (35) : 11828 —11833
[66 ]  Liong M, Lu J , Kovochich M, et al . ACS Nano , 2008 , 2 ( 5) :889 —896
[1] 曹如月, 肖晶晶, 王伊轩, 李翔宇, 冯岸超, 张立群. 杂Diels-Alder 环加成反应级联RAFT聚合[J]. 化学进展, 2023, 35(5): 721-734.
[2] 杨世迎, 李乾凤, 吴随, 张维银. 铁基材料改性零价铝的作用机制及应用[J]. 化学进展, 2022, 34(9): 2081-2093.
[3] 仲宣树, 刘宗建, 耿雪, 叶霖, 冯增国, 席家宁. 材料表面性质调控细胞黏附[J]. 化学进展, 2022, 34(5): 1153-1165.
[4] 秦苗, 徐梦洁, 黄棣, 魏延, 孟延锋, 陈维毅. 氧化铁纳米颗粒在磁共振成像中的应用[J]. 化学进展, 2020, 32(9): 1264-1273.
[5] 孙皓, 宋程威, 庞越鹏, 郑时有. 锂硫电池隔膜功能化设计[J]. 化学进展, 2020, 32(9): 1402-1411.
[6] 秦瑞轩, 邓果诚, 郑南峰. 金属纳米材料表面配体聚集效应[J]. 化学进展, 2020, 32(8): 1140-1157.
[7] 鲁志远, 刘燕妮, 廖世军. 锂离子电池富锂锰基层状正极材料的稳定性[J]. 化学进展, 2020, 32(10): 1504-1514.
[8] 王兆翔, 马君, 高玉瑞, 刘帅, 冯欣, 陈立泉. 稳定富锂层状氧化物正极材料的结构与性能[J]. 化学进展, 2019, 31(11): 1591-1614.
[9] 刘萍, 汪璟, 郝鸿业, 薛云帆, 黄俊杰, 计剑. 光化学反应在生物材料表面修饰中的应用[J]. 化学进展, 2019, 31(10): 1425-1439.
[10] 谭晓晓, 李国帅, 王庆鹏, 王炳全, 李大成, 王鹏. 作为抗肿瘤药物的小分子四价铂[J]. 化学进展, 2018, 30(6): 831-846.
[11] 毕洪梅, 韩晓军. 磁应答型药物递送载体的设计与构建[J]. 化学进展, 2018, 30(12): 1920-1929.
[12] 展鹏, 王学顺, 刘新泳. “精准医疗”背景下的分子靶向药物研究——精准药物设计策略浅析[J]. 化学进展, 2016, 28(9): 1363-1386.
[13] 王亚立, 李贞, 刘志洪. 上转换荧光纳米材料的水溶性修饰[J]. 化学进展, 2016, 28(5): 617-627.
[14] 杨彩云, 曹长乾, 蔡垚, 张同伟, 潘永信. 铁蛋白表面修饰及其应用[J]. 化学进展, 2016, 28(1): 91-102.
[15] 牟思阳, 郭静, 于春芳, 宫玉梅, 张森. ATRP大分子引发剂的合成及应用[J]. 化学进展, 2015, 27(5): 539-549.