Page 146 - Development of Functional Scaffolds for Bone Tissue Engineering Using 3D-Bioprinting of Cells and Biomaterials - Yasaman Zamani
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Publications
Zamani Y, Mohammadi J, Amoabediny G, Visscher DO, Helder MN, Zandieh-Doulabi B, Klein- Nulend J. Enhanced osteogenic activity by MC3T3-E1 pre-osteoblasts on chemically surface- modified poly (ε-caprolactone) 3D-printed scaffolds compared to RGD immobilized scaffolds. Biomedical Materials 2018;14:015008.
Zamani Y, Amoabediny G, Mohammadi J, Seddiqi H, Helder MN, Zandieh-Doulabi B, Klein- Nulend J, Koolstra JH. 3D-printed poly (ɛ-caprolactone) scaffold with gradient mechanical properties according to force distribution in the mandible for mandibular bone tissue engineering. Journal of the Mechanical Behavior of Biomedical Materials 2020;104:103638.
Zamani Y, Amoabediny G, Mohammadi J, Zandieh-Doulabi B, Klein-Nulend J, Helder MN. Increased osteogenic differentiation of pre-osteoblasts on 3D-printed PLGA/β-TCP scaffolds compared to porous scaffolds for bone tissue engineering. Submitted.
Zamani Y, Mohammadi J, Amoabediny G, Helder MN, Zandieh-Doulabi B, Klein-Nulend J. Bioprinting of alginate-encapsulated MC3T3-E1 pre-osteoblasts in PLGA/β-TCP scaffolds enhances cell retention but impairs cell proliferation and osteogenic differentiation compared to cell seeding after 3D-printing. Submitted.
Zamani Y, Rabiee M, Shokrgozar MA, Bonakdar S, Tahriri M. Response of human mesenchymal stem cells to patterned and randomly oriented poly (vinyl alcohol) nano-fibrous scaffolds surface- modified with Arg-Gly-Asp (RGD) ligand. Applied Biochemistry and Biotechnology 2013;171:1513-1524.
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