Materials Reports 2019, Vol. 33 Issue (Z2): 542-546 |
POLYMERS AND POLYMER MATRIX COMPOSITES |
|
|
|
|
|
Preparation of β-cyclodextrin-drug Inclusion Complex Aided by SupercriticalCarbon Dioxide |
WANG Jingchang1,2, ZHAO Yu1,2, MIAO Hongyu1,2, ZHAO Qicheng1,2, ZHAN Shiping1,2
|
1 College of Environmental & Chemical Engineering, Dalian University, Dalian 116622; 2 Chemical and Environmental Protection Engineering Research Technology Center, Dalian 116622 |
|
|
Abstract Due to its good biocompatibility and biodegradability, β-cyclodextrin is widely used in the fields of the drug, medicine and environment and so on. In this paper, the basic properties of β-cyclodextrin and its application in pharmaceutical fields were described, and the characteristics of supercritical fluid as a green solvent and its application in pharmaceutical preparations were briefly discussed. Some research methods and results on β-cyclodextrin inclusion complex prepared by supercritical carbon dioxide were introduced. Finally, the development direction on the application of β-cyclodextrin and the research of supercritical fluid were prospected.
|
Published: 25 November 2019
|
|
Fund:This work was financially supported by the National Natural Science Foundation of China (21676038). |
About author:: Jingchang Wang is a professor and postgraduate supervisor at college of environmental and chemical enginee-ring of Dalian University. He has published more than 20 research papers in the academic journals at home and abroad as the first author, and applied 7 national invention patents, 5 of them were authorized. Her research direction is the research on the functional polymer materials. Shiping Zhan is a professor and doctoral supervisor at college of environmental and chemical engineering of Dalian University. At the same time, she is also a leader of the functional polymer material team. She has published more than 50 research papers in the academic journals at home and abroad and authorized 18 national invention patents were obtained. In recent years, her research interests are the field of the polymer microparticles preparation by supercritical fluid technology, drug release performance of the targeted polymer drug-loaded microparticles, pre-paration of the biomedical polymer materials, etc. |
|
|
1 Jacob J, Haponluk J T, Thomas S, et al. Materials Today Chemistry,2018,9(9),43. 2 Numata K, Kaplan D L. Advanced Drug Delivery Reviews,2010,62(15),1497. 3 Sakeer K, Ispasszabo P, Benyerbah N, et al. International Journal of Pharmaceutics,2018,535(1-2),201. 4 Badens E, Masmoudi Y, Mouahid A, et al. Journal of Supercritical Fl-uids,2018,134(4),274. 5 简宇航,颜世峰,李星,等.高等学校化学学报,2017,38(8),1489. 6 Datz S, Illes B, Göβl D, et al. Nanoscale,2018,10(34),16284. 7 陈鹏飞,宋航,李福林,等.中国测试,2017,43(4),38. 8 Lima P S S, Lucchese A M, Araújo-Filho H G, et al. Carbohydrate Polymers,2016,151(10),965. 9 Martin Del Valle E M. Process Biochemistry,2004,39(9),1033. 10 Prentis R A, Lis Y, Walker S R. British Journal of Clinical Pharmacology,1988,25(3),387. 11 Ahr G, Voith B, Kuhlmann J. European Journal of Drug Metabolism and Pharmacokinetics,2000,25(1),25. 12 Strickley R G. Pharmaceutical Research,2004,21(2),201. 13 吴江,阮克萍,张丽珺,等.中国医药工业杂志,2007,38(2),101. 14 Mcewen J. Clinical Drug Investigation,2000,19(S2),27. 15 Li R X, Liu S M, Zhao J Q, et al. Chinese Chemical Letters,2011,22(2),217. 16 Morin-Crini N, Winterton P, Fourmentin S, et al. Progress in Polymer Science,2018,78,1. 17 Kihara F, Arima H, Tsutsumi T, et al. Bioconjugate Chemistry,2003,14(2),342. 18 Yamamoto D, Koshiyama T, Watanabe S, et al. Colloids and Surfaces A: Physicochemical and Engineering Aspects,2012,411(19),12. 19 Guo W, Lei Z. Journal of Materials Research,2015,30(21),3201. 20 Li R Q, Niu Y L, Zhao N N, et al. ACS Applied Materials & Interfaces,2014,6(6),3969. 21 Asanuma H, Kakazu M, Shibata M, et al. Supramolecular Science 1998,5(3-4),417. 22 Gonzalez H, Hwang S J, Davis M E. Bioconjugate Chemistry,1999,10(6),1068. 23 Shown I, Baek-Ko W, Murthy C N. Polymer Bulletin,2012,69(1),1. 24 Cheng J, Khin K T, Davis M E. Molecular Pharmaceutics,2004,1(3),183. 25 Davis M E, Pun S H, Bellocq N C, et al. Current Medicinal Chemistry,2004,11(2),179. 26 Jiang Q, Zhang Y, Zhuo R, et al. Colloids and Surfaces B: Biointerfaces,2016,147(1),25. 27 Pun S H, Tack F, Bellocq N C, et al. Cancer Biology & Therapy,2004,3(7),641. 28 Pun S H, Bellocq N C, Liu A, et al. Bioconjugate Chemistry,2004,15(4),831. 29 Zheng H, Zhang J, Du B, et al. Journal of Applied Polymer Science,2015,132(14),41756. 30 Padmajan S S, Poulin P, Aymonier C. Advanced Materials,2016,28(14),2663. 31 Wais U, Jackson A W, He T, et al. Nanoscale,2016,8(4),1746. 32 Douroumis D, Ross S A, Nokhodchi A. Advanced Drug Delivery Reviews.2017,117(8),178. 33 Nuchuchua O, Nejadnik M R, Goulooze S C, et al. Journal of Supercritical Fluids,2017,128(10),244. 34 Tabemero A, González-Garcinuño A, Galan M A, et al. Reviews in Che-mical Engineering,2017,32(5),507. 35 Pando C, Cabañas A, Cuadra I A. RSC Advances,2016,6(75),71134. 36 Knez , Markoi E, Leitgeb M, et al. Energy,2014,77(12),235. 37 Kankala R K, Zhang Y S, Wang S B, et al. Advanced Healthcare Mate-rials,2017,6(16),1700433. 38 Brunner G. Annual Review of Chemical and Biomolecular Engineering,2010,1(1),321. 39 Perrut M. Journal of Supercritical Fluids,2012,66(6),359. 40 Anastas P, Eghbali N. Chemical Society Reviews,2010,39(1),301. 41 Jiménez-González C, Constable D J C, Ponder C S. Chemical Society Reviews,2012,41(4),1485. 42 Tucker J L, Faul M M. Nature,2016,534(7605),27. 43 Amidon G L, Lennernäs H L, Shah V P, et al. Pharmaceutical Research,1995,12(3),413. 44 Williams H D, Trevaskis N L, Charman S A, et al. Pharmacological Reviews,2013,65(1),315. 45 Adeoye O, Cabral-Marques H. International Journal of Pharmaceutics,2017,531(2),521. 46 Reverchon E, Antonacci A. Biotechnology and Bioengineering,2006,94(4),753. 47 Li Y, He Z, Zheng Q, et al. Molecules,2018,23(5),1169. 48 Nerome H, Machmudah S, et al. Journal of Supercritical Fluids,2013,83(11),97. 49 Hussein K, Türk M, Wahl M A. Pharmaceutical Research,2007,24(3),585. 50 Al-Marzouqi A H, Elwy H M, Shehadi I, et al. Journal of Pharmaceutical and Biomedical Analysis,2009,49(2),227. 51 Jun S W, Kim M S, Kim J S, et al. European Journal of Pharmaceutics and Biopharmaceutics,2007,66(3),413. 52 Pan H, Wang H B, Yu Y B, et al. Acta Pharmaceutica,2017,67(1),85. 53 Andrade T A, Freitas T S, Araujo F O, et al. Biomedicine & Pharmacotherapy,2017,89(5),201. 54 Gidwani B, Vyas A. Colloids and Surfaces B: Biointerfaces,2014,114(2),130. 55 Loftsson T, Brewster M E. Journal of Pharmacy and Pharmacology,2010,62(11),1607. |
|
|
|