Sha Tang
Shanghai Normal University
9 Papers
51 Citations
Sha Tang is an academic researcher from Shanghai Normal University. The author has contributed to research in topics: Biocompatibility & Simulated body fluid. The author has an hindex of 9, co-authored 9 publications.
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Papers
Hydrothermal fabrication of magnetic mesoporous carbonated hydroxyapatite microspheres: biocompatibility, osteoinductivity, drug delivery property and bactericidal property
TL;DR: The in vitro cell tests indicate that the magnetic nanoparticles in the MHMs not only promote the cell adhesion and proliferation of human bone marrow stromal cells (hBMSCs), but also stimulate the osteogenic differentiation.
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Hydroxyapatite coatings with oriented nanoplate arrays: synthesis, formation mechanism and cytocompatibility
TL;DR: Simulated body fluid immersion tests reveal that the HACs with oriented nanoplate arrays can promote the formation of apatite on the surfaces, suggesting their good in vitro bioactivity.
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Gentamicin-loaded carbonated hydroxyapatite coatings with hierarchically porous structures: drug delivery properties, bactericidal properties and biocompatibility
TL;DR: In vitro cell tests indicated that human bone marrow stromal cells had good cell adhesion, spreading and proliferation on the Gent-CHACs, and the released gentamicin had no toxic effects on the hBMSCs, suggesting that they have great potential as bone substitute materials.
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Bactericidal properties and biocompatibility of a gentamicin-loaded Fe3O4/carbonated hydroxyapatite coating.
Bo Tian,Sha Tang,Chuan-Dong Wang,Wengang Wang,Chuanlong Wu,Ya-Jun Guo,Ya-Ping Guo,Zhenan Zhu +7 more
TL;DR: Gent-MCHC had higher drug loading efficiency and drug release capacity, and superior biocompatibility and mitogenic activity than Ti6Al4V, and deterred bacterial adhesion and prevented biofilm formation.
32
Biomimetic fabrication and biocompatibility of hydroxyapatite/chitosan nanohybrid coatings on porous carbon fiber felts
TL;DR: In this article, the authors used hydroxyapatite (HA)/chitosan nanohybrid coatings (HA/CS/CFs) on porous carbon fiber felts (PCFFs) to improve the in vitro biocompatibility of human bone marrow stromal cells (hBMSCs).
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