Magnetic silk fibroin protein (SFP) scaffolds integrating magnetic materials and featuring magnetic gradients were prepared for potential utility in magnetic-field assisted tissue engineering. Magnetic nanoparticles (MNPs) were introduced into SFP scaffolds via dip-coating methods, resulting in magnetic SFP scaffolds with different strengths of magnetization. Magnetic SFP scaffolds showed excellent hyperthermia properties achieving temperature increases up to 8 °C in about 100 s. The scaffolds were not toxic to osteogenic cells and improved cell adhesion and proliferation. These findings suggest that tailored magnetized silk-based biomaterials can be engineered with interesting features for biomaterials and tissue-engineering applications.
Sangram Keshari Samal, Vitaly Goranov, Mamoni Dash, Alessandro Russo, Tatiana Shelyakova, Patrizio Graziosi, Lisa Lungaro, Alberto Riminucci, M. Uhlarz, Manuel Bañobre‐López, J. Rivas, T. Herrmannsdörfer, Jayakumar Rajadas, Stefaan C. De Smedt, Kevin Braeckmans, David Kaplan, V. Dediu
Lorenz Uebersax, Henri Hagenmüller, Sandra Hofmann, Emanuel Gruenblatt, Ralph Müller, Gordana Vunjak‐Novakovic, David Kaplan, Hans P. Merkle, Lorenz Meinel
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