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Anja Lode
Researcher at Dresden University of Technology
Publications - 120
Citations - 4827
Anja Lode is an academic researcher from Dresden University of Technology. The author has contributed to research in topics: Tissue engineering & Chemistry. The author has an hindex of 36, co-authored 104 publications receiving 3607 citations. Previous affiliations of Anja Lode include University of Potsdam.
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Journal ArticleDOI
Development of a clay based bioink for 3D cell printing for skeletal application.
Tilman Ahlfeld,Gianluca Cidonio,David Kilian,Sarah Duin,Ashwini Rahul Akkineni,Jonathan I. Dawson,Shoufeng Yang,Anja Lode,Richard O.C. Oreffo,Michael Gelinsky +9 more
TL;DR: The authors used a synthetic nanosilicate clay, called Laponite, to build up scaffolds utilising the extrusion-based method 3D plotting, achieving scaffolds with high printing fidelity.
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Three-dimensional plotting of a cell-laden alginate/methylcellulose blend: towards biofabrication of tissue engineering constructs with clinically relevant dimensions.
TL;DR: A novel alginate‐based material suitable for both cell embedding and fabrication of three‐dimensional structures with predefined geometry by 3D plotting is described, characterized by high elasticity and stability, as well as an enhanced microporosity caused by the transient presence of MC.
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A novel strontium(II)-modified calcium phosphate bone cement stimulates human-bone-marrow-derived mesenchymal stem cell proliferation and osteogenic differentiation in vitro.
TL;DR: The in vitro effects of novel strontium-modified calcium phosphate bone cements, prepared using two different approaches on human-bone-marrow-derived mesenchymal stem cells, could be beneficial for the local treatment of defects, especially in the osteoporotic bone.
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Hierarchical mesoporous bioactive glass/alginate composite scaffolds fabricated by three-dimensional plotting for bone tissue engineering
TL;DR: 3D-plotted MBG incorporated alginate scaffolds with well-ordered nano-pores, controllable large pores, and significantly improved physicochemical, biological and drug-delivery properties could be a platform for bone tissue engineering.
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Jellyfish collagen scaffolds for cartilage tissue engineering.
Birgit Hoyer,Anne Bernhardt,Anja Lode,Sascha Heinemann,Judith Sewing,Matthias Klinger,Holger Notbohm,Michael Gelinsky +7 more
TL;DR: Cytotoxicity tests with human mesenchymal stem cells did not reveal any cytotoxic effects of the material, and the formation of collagen fibrils with a typical banding pattern was confirmed by atomic force microscopy and transmission electron microscopy analysis.