Development of an anti-infection nano-hydroxypatite drug delivery microsphere and its drug-release in vitro

Journal of Southern Medical University ›› 2006, Vol. 26 ›› Issue (06): 754-756.

Development of an anti-infection nano-hydroxypatite drug delivery microsphere and its drug-release in vitro

南方医科大学珠江医院骨科中心；华南理工大学材料学院；南方医科大学珠江医院骨科中心广东广州510282；广东广州510282；广东广州510641；

Online:2006-06-20 Published:2006-06-20

Abstract

Abstract: Objective To develop an anti-infection nano-hydroxypatite (nano-HA) microsphere for local drug delivery for treating osteomyelitis. Methods The nano-HA was used as the core carrier to load gentamicin (GM) and coated with poly(-hydroxybutyrate-co-hydroxyvalerate)/polyethylene glycol (PHBV/PEG), which was degradable and biocompatible, to prepare nano-HA-PHBV/PEG-GM microsphere. The surface structure and in vitro drug-release of the microsphere were studied. Results The microsphere had good drug delivery capability. The samples weighing 90 mg each were soaked in PBS and gentamicin release within the first day was 165.2 μg/ml, which maintained a low release rate in the following days. After 28 days, gentamicin release declined to 8.5 μg/ml, which was higher than the minimal inhibitory concentration of gentamicin (2 μg/ml). Conclusion The local drug delivery system has good drug-release performance in vitro and may possess potential value in clinical management of osteomyelitis.

CLC Number:

R318.08

WANG Yong-feng1, JIN An-min1, WEI Kun2, WANG Xu-dong2, TANG Shan-hua1, MIN Shao-xiong1 1Department of Othopedics, Zhujiang Hospital, Southern Medical University, Guangzhou 510282, China; 2Institute of Material Science and Engineering, South China University of Technology, Guangzhou 510641, China. Development of an anti-infection nano-hydroxypatite drug delivery microsphere and its drug-release in vitro[J]. Journal of Southern Medical University, 2006, 26(06): 754-756.

[1]	ZHANG Yu-min1,LI Bao-xing2,LI Ji3,MA Hong-qiang2,ZHAO Ya-ping2,YUAN Lin1 1Research Center of Tissue Engineering,Southern Medical University,Guangzhou 510515,China;2Institute of Biomaterials and Pharmacy,China Institute for Radiation Protection,Taiyuan 030006,China;3Second Hospital of Tangshan,Tangshan 063000,China. Preparation of porous polylactic-acid/bone matrix gelatin composite as scaffold materials for bone-tissue engineering [J]. Journal of Southern Medical University, 2006, 26(12): 1745-1748.
[2]	YANG Jun¹, LIU Wei², YU Lei¹, QIU Xiao-zhong¹, JIAO Pei-feng¹, HU Lian-Mei¹, WU Lei¹, PIAO Ying-Jie¹, ZHONG Shi-zhen¹, QIN Jian-qiang¹. Construction of artificial nerve bridge by three-dimensional culture of Schwann cells with human hair keratins [J]. Journal of Southern Medical University, 2005, 25(09): 1128-1131,1144.
[3]	LIU Jin-biao¹, LIAN Wei², CHEN Jian-ting³, JIN Da-di³, QUAN Yi¹, PAN Xian-ming¹. Diaphyseal defect repair with nacre/polylactic acid composite artificial bone in rabbits [J]. Journal of Southern Medical University, 2004, 24(09): 1029-1032,1036.
[4]	HUANG Han-ping¹, MOU Shah-song¹, MA An-de². Preparation of a composit membrane with collagen scaffold material for tissue culture [J]. Journal of Southern Medical University, 2004, 24(07): 832-833.
[5]	LU Yan-meng¹, FU Wen-yu², PIAO Ying-jie¹. Cloning and sequence analysis of the preprotein cDNA of human bone morphognetic protein 12 [J]. Journal of Southern Medical University, 2004, 24(03): 260-263.

Development of an anti-infection nano-hydroxypatite drug delivery microsphere and its drug-release in vitro

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