Osteogenic Differentiation by Mc3t3-E1 Pre-Osteoblasts is Enhanced More on Wet-Chemically Surface-Modified 3d-Printed Poly-Ε-Caprolactone Scaffolds than on Plasma-Assisted Modified Scaffolds-Reference-Cited by-同舟云学术

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Osteogenic Differentiation by Mc3t3-E1 Pre-Osteoblasts is Enhanced More on Wet-Chemically Surface-Modified 3d-Printed Poly-Ε-Caprolactone Scaffolds than on Plasma-Assisted Modified Scaffolds

Published:2024 Issue: Volume: Page:
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Author:

Seddiqi Hadi,Abbasi-Ravasjani Sonia,Moghaddaszadeh Ali,Ghiasvand Mohammad Ehsan,Yahyazadeh Amin,Yahyazadeh Ehsan,Hajipour-Verdom Behnam,Jin Jianfeng,Klein-Nulend Jenneke

Publisher

Elsevier BV

Reference80 articles.

1. 3D-printed poly (?-caprolactone) scaffold with gradient mechanical properties according to force distribution in the mandible for mandibular bone tissue engineering;Y Zamani;Journal of the mechanical behavior of biomedical materials,2020

2. Polycaprolactone as biomaterial for bone scaffolds: Review of literature;R Dwivedi;Journal of oral biology and craniofacial research,2020

3. Enhancing the hydrophilicity and cell attachment of 3D printed PCL/graphene scaffolds for bone tissue engineering;W Wang;Materials,2016

4. Influence of plasma functionalization treatment and gold nanoparticles on surface chemistry and wettability of reactive-sputtered TiO2 thin films;A Achour;Applied Surface Science,2018

5. Biomimetic 3D-printed PCL scaffold containing a high concentration carbonatednanohydroxyapatite with immobilized-collagen for bone tissue engineering: enhanced bioactivity and physicomechanical characteristics;A Moghaddaszadeh;Biomedical Materials,2021

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