Novel 3D Hybrid Nanofiber Scaffolds for Bone Regeneration

被引:16
|
作者
Kolbuk, Dorota [1 ]
Heljak, Marcin [2 ]
Choinska, Emilia [2 ]
Urbanek, Olga [1 ]
机构
[1] Polish Acad Sci, Inst Fundamental Technol Res, Adolfa Pawinskiego 5b, PL-02106 Warsaw, Poland
[2] Warsaw Univ Technol, Fac Mat Sci & Engn, Woloska 141, PL-02507 Warsaw, Poland
来源
POLYMERS | 2020年 / 12卷 / 03期
关键词
hybrid scaffolds; electrospinning; freeze-drying; gelatin; hydroxyapatite; sonochemical covering/grafting; EXTRACELLULAR-MATRIX; ELECTROSPUN FIBERS; GELATIN; COMPOSITES; CARTILAGE; COLLAGEN; HYDROGELS; BEHAVIOR; ACID); FISH;
D O I
10.3390/polym12030544
中图分类号
O63 [高分子化学(高聚物)];
学科分类号
070305 ; 080501 ; 081704 ;
摘要
Development of hybrid scaffolds and their formation methods occupies an important place in tissue engineering. In this paper, a novel method of 3D hybrid scaffold formation is presented as well as an explanation of the differences in scaffold properties, which were a consequence of different crosslinking mechanisms. Scaffolds were formed from 3D freeze-dried gelatin and electrospun poly(lactide-co-glicolide) (PLGA) fibers in a ratio of 1:1 w/w. In order to enhance osteoblast proliferation, the fibers were coated with hydroxyapatite nanoparticles (HAp) using sonochemical processing. All scaffolds were crosslinked using an EDC/NHS solution. The scaffolds' morphology was imaged using scanning electron microscopy (SEM). The chemical composition of the scaffolds was analyzed using several methods. Water absorption and mass loss investigations proved a higher crosslinking degree of the hybrid scaffolds than a pure gelatin scaffold, caused by additional interactions between gelatin, PLGA, and HAp. Additionally, mechanical properties of the 3D hybrid scaffolds were higher than traditional hydrogels. In vitro studies revealed that fibroblasts and osteoblasts proliferated and migrated well on the 3D hybrid scaffolds, and also penetrated their structure during the seven days of the experiment.
引用
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页数:17
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