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3D Printed Zn-doped Mesoporous Silica-incorporated Poly-L-lactic Acid Scaffolds for Bone Repair
Author(s) -
Guowen Qian,
Lemin Zhang,
Guoyong Wang,
Zhengyu Zhao,
Shuping Peng,
Cijun Shuai
Publication year - 1970
Publication title -
international journal of bioprinting
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.014
H-Index - 24
eISSN - 2424-7723
pISSN - 2424-8002
DOI - 10.18063/ijb.v7i2.346
Subject(s) - scaffold , mesoporous material , materials science , mesoporous silica , chemical engineering , polymer , chemistry , biomedical engineering , composite material , organic chemistry , medicine , engineering , catalysis
Poly-L-lactic acid (PLLA) lacks osteogenic activity, which limits its application in bone repair. Zinc (Zn) is widely applied to strengthen the biological properties of polymers due to its excellent osteogenic activity. In the present study, Zn-doped mesoporous silica (Zn-MS) particles were synthesized by one-pot hydrothermal method. Then, the particles were induced into PLLA scaffolds prepared by selective laser sintering technique, aiming to improve their osteogenic activity. Our results showed that the synthesized particles possessed rosette-like morphology and uniform mesoporous structure, and the composite scaffold displayed the sustained release of Zn ion in a low concentration range, which was attributed to the shield effect of the PLLA matrix and the strong bonding interaction of Si-O-Zn. The scaffold could evidently promote osteogenesisdifferentiation of mouse bone marrow mesenchymal stem cells by upregulating their osteogenesis-related gene expression. Besides, Zn-MS particles could significantly increase the compressive strength of the PLLA scaffold because of their rosettelike morphology and mesoporous structure, which can form micromechanical interlocking with the PLLA matrix. The Zn-MS particles possess great potential to improve various polymer scaffold properties due to their advantageous morphology andphysicochemical properties.

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