Fe3O4-壳聚糖-胶原-纳米羟基磷灰石原位复合支架的仿生制备及表征
Biomimetic preparation and characterization of Fe3O4-chitosan-collagen-nano hydroxyapatite in situ composite scaffold

DOI: 10.13801/j.cnki.fhclxb.20170222.005

Keywords: 原位复合,纳米Fe3O4,纳米羟基磷灰石,磁性复合材料,骨组织工程
in situ,nano Fe3O4,nano hydroxyapatite,magnetic composite,bone tissue engineering

Full-Text   Cite this paper   Add to My Lib

Abstract:

References

[1]	黄江鸿, 段莉, 陈洁琳. 磁性纳米多孔复合支架材料的细胞相容性研究术[J]. 生物骨科材料与临床研究, 2014, 11(5):16-19. HUANG J H, DUAN L, CHEN J L, et al. Cytocompatibility research in magnetic nano-porous composite scaffold[J]. Orthopaedic Biomechanics Materials and Clinical Study, 2014, 11(5):16-19(in Chinese).
[2]	滕瑜. 生物矿化法制备Fe3O4@CaP复合磁性纳米粒子及性能研究[D]. 北京:北京化工大学, 2012. TENG Y. Preparation and properties of Fe3O4@CaP magnetic nanohybrids by biomineralization and their interaction with BMSCs[D]. Beijing:Beijing University of Technology, 2012(in Chinese).
[3]	赵大洲. 磁性磷酸钙生物材料的制备与表征[J]. 河南科学, 2015, 33(11):1906-1909. ZHAO D Z. Preparation and characteration of magnetic calcium phosphate biomaterials[J]. Henan Science, 2015, 33(11):1906-1909(in Chinese).
[4]	MORI K, KANAI S, HARA T, et al. Development of ruthenium-hydroxyapatite-encapsulated superparamagnetic γ-Fe2O3 nanocrystallites asan efficient oxidation catalyst by molecular oxygen[J]. Chemistry of Materials, 2007, 19:1249-1256.
[5]	FAN T T, CHEN J D, PAN P P, et al. Bioinspired double polysaccharides-based nanohybrid scaffold for bone tissue engineering[J]. Colloids and Surfaces B:Biointerfaces, 2016, 147:217-223.
[6]	GOU Y P, ZHOU Y, JIA D C, et al. Fabrication and in vitro characterization of magnetic hydroxycarbonate apatite coatings with hierarchically porous structures[J]. Acta Biomaterialia, 2008, 4(4):923-931.
[7]	LI Y Y, YUAN D Y, DONG M J, et al. Facile and green synthesis of core-shell structured magnetic chitosan submicrospheres and their surface functionalization[J]. Langmuir:The ACS Journal of Surfaces and Colloids, 2013, 29(37):11770-11778.
[8]	DENUZIERE A, FERRIER D, DAMOUR O, et al. Chitosan-chondroitin sulfate and chitosan-hyaluronate polyelectrolyte complexes:Biological properties[J]. Biomaterials, 1998, 19(14), 1275-1285.
[9]	任杰, 吴志刚, 潘可风. 可降解高分子材料在骨、软骨组织工程中的应用[J]. 同济大学学报:医学版, 2003, 24(1):62-65. REN J, WU Z G, PAN K F, et al. Application of degradable polymer materials in bone and cartilage tissue engineering[J]. Journal of Tongji University (Medical Science), 2003, 24(1):62-65(in Chinese).
[10]	QUINLAN E, PARTAP S, AZEVEDO M M, et al. Hypoxia-mimicking bioactive glass/collagen glycosaminoglycan composite scaffolds to enhance angiogenesis and bone repair[J]. Biomaterials, 2015, 52:358-366.
[11]	CHEN R, CURRAN S J, CURRAN J M, et al. The use of poly (l-lactide) and RGD modified microspheres as cell carriers in a flow intermittency bioreactor for tissue engineering cartilage[J]. Biomaterials, 2006, 27(25):4453-4460.
[12]	LI J J, DOU Y, YANG J, et al. Surface characterization and biocompatibility of micro-and nano-hydroxyapatite/chitosan-gelatin network films[J]. Materials Science and Engineering:C, 2009, 29(4):1207-1215.
[13]	章文苑, 律娅婧. 纳米羟基磷灰石/Ⅰ型胶原/壳聚糖复合支架材料的制备与优化[J]. 生物骨科材料与临床研究, 2011, 8(3):1-4. ZHANG W Y, LV Y J, et al. Fabrication and optional design of nano-hydroxyapatite/collagenⅠ/chitosan composite scaffolds for bone tissue engineering[J]. Orthopaedic Biomechanics Materials and Clinical Study, 2011, 8(3):1-4(in Chinese).
[14]	WEBSTER T J, ERGUN C, DOREMUS R H, et al. Specific proteins mediate enhanced osteoblast adhesion on nanophase ceramics[J]. Journal of Biomedical Materials Research, 2000, 51(3):475-483.
[15]	CHEN J D, YU Q F, ZHANG G D, et al. Preparation and biocompatibility of nanohybrid scaffolds by in situ homogeneous formation of nano hydroxyapatite from biopolymer polyelectrolyte complex for bone repair applications[J]. Colloids and Surfaces B:Biointerfaces, 2012, 93:100-107.
[16]	田明达, 朱朝敏, 罗聪. 壳聚糖和油酸钠修饰的超顺磁性四氧化三铁纳米粒子的细胞毒性[J]. 第二军医大学学报, 2014, 35(4):366-371. TIAN M D, ZHU Z M, LUO C, et al. Cytotoxicity of superpara-magnetic iron oxide nano particles modified by chitosan or sodium oleate[J]. Academic Journal of Second Military Medical University, 2014, 35(4):366-371(in Chinese).
[17]	沈昊宇, 赵永纲, 胡美琴. 高分子聚羧酸-纳米Fe3O4磁性复合颗粒的制备及其对水中对羟基苯甲酸酯类化合物的吸附作用[J]. 复合材料学报, 2009, 26(4):68-73. SHEN H Y, ZHAO Y G, HU M Q. Preparation and adsorption properties of polycarboxylate nano-Fe3O4 magnetic composite particles[J]. Acta Materiae Compositae Sinica, 2009, 26(4):68-73(in Chinese).
[18]	PETCHSANG N, PON-ON W, HODAK J H, et al. Magnetic properties of Co-ferrite-doped hydroxyapatite nano particles having a core/shell structure[J]. Journal of Magnetism and Magnetic Materials, 2009, 321(13):1990-1995.
[19]	HOU C H, CHEN C W, HOU S M, et al. The fabrication and characterization of dicalcium phosphate dihydrate-modified magnetic nano particles and their performance in hyperthermia processes in vitro[J]. Biomaterials, 2009, 30(27):4700-4707.

Full-Text