Extrusion Printed Silk Fibroin Scaffolds with Post-mineralized Calcium Phosphate as a Bone Structural Material

被引:6
|
作者
Shi, Ruya [1 ]
Cai, Xingxing [1 ]
He, Guanping [2 ]
Guan, Juan [1 ]
Liu, Yuzeng [2 ]
Lu, Hongyi [2 ]
Mao, Zhinan [1 ]
Li, Yan [1 ,3 ]
Guo, Hongbo [1 ,3 ]
Hai, Yong [2 ]
机构
[1] Beihang Univ, Sch Mat Sci & Engn, Beijing 100083, Peoples R China
[2] Capital Med Univ, Affiliated Beijing Chaoyang Hosp, Dept Orthoped, 8 Gongtinanlu, Beijing 100020, Peoples R China
[3] Beijing Adv Innovat Ctr Biomed Engn, Beijing 100083, Peoples R China
来源
INTERNATIONAL JOURNAL OF BIOPRINTING | 2022年 / 8卷 / 04期
基金
北京市自然科学基金;
关键词
3D-printing; Structural biomaterial; Mineralization; Hybrid material; IN-VITRO; HYDROXYAPATITE; ALGINATE; MONETITE; HYDROGEL; BRUSHITE; CEMENTS;
D O I
10.18063/ijb.v8i4.596
中图分类号
R318 [生物医学工程];
学科分类号
0831 ;
摘要
Artificial bone materials are of high demand due to the frequent occurrence of bone damage from trauma, disease, and ageing. Three-dimensional (3D) printing can tailor-make structures and implants based on biomaterial inks, rendering personalized bone medicine possible. Herein, we extrusion-printed 3D silk fibroin (SF) scaffolds using mixed inks from SF and sodium alginate (SA), and post-mineralized various calcium phosphates to make hybrid SF scaffolds. The effects of printing conditions and mineralization conditions on the mechanical properties of SF scaffolds were investigated. The SF scaffolds from similar to 10 wt% SF ink exhibited a compressive modulus of 240 kPa, which was elevated to similar to 1600 kPa after mineralization, showing a significant reinforcement effect. Importantly, the mineralized SF 3D scaffolds exhibited excellent MC3T3-E1 cell viability and promoted osteogenesis. The work demonstrates a convenient strategy to fabricate SF-based hybrid 3D scaffolds with bone-mimetic components and desirable mechanical properties for bone tissue engineering.
引用
收藏
页数:17
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