Journal Impact Factor 1 Cell Stem Cell 26,470 20.860 2 Bone Research 1,679 11.508 3 npj Regenerative Medicine 417 7.021 4 Stem Cells Translational Medicine 5,639 6.429 5 Stem Cell Reports 7,834 6.032 6 STEM CELL
Tissue Engineering Part B: Reviews Issues Tissue Engineering Part C: Methods Issues Submit a Paper Subscribe/Renew All Issues Reprints/ePrints Back to Top backAbout About Mary Ann Liebert, Inc. Newsroom Privacy Policy SDG Commitment What We Do Publications All Publications (A-Z) Browse By Sub...
The concept of tissue engineering was defined as the “Integration of scientific and engineering practices for gaining a deeper understanding of structure and function relationship of normal/pathological tissue and apply it for producing biotechnological substitutes intended for restoration of tissue function...
Engineering of Biologically Active Living Heart Valve Leaflets Using Human Umbilical Cord–Derived Progenitor Cells Dörthe Schmidt, Anita Mol, Bernhard Odermatt, Stefan Neuenschwander, Christian Breymann, Matthias Gössi, Michele Genoni, Gregor Zund, and ...
Tissue engineering is an interdisciplinary field that applies the principles of engineering and the life sciences to the development of biological substitutes that restore, maintain, or improve tissue function. The potential impact of tissue engineering from both a therapeutic and an economic standpoint ...
tissue engineering has made great progress in many fields, for example, tissue-engineered skin and cornea have been used in clinical applications. The core of tissue engineering is to establish a three-dimensional spatial complex of cells and biomaterials, which mainly involves three elements: seed ...
While poly(ethylene glycol) (PEG) hydrogels are generally regarded as biologically inert blank slates, concerns over PEG immunogenicity are growing, and the implications for tissue engineering are unknown. Here, we investigate these implications by immun
tissue engineering has made great progress in many fields, for example, tissue-engineered skin and cornea have been used in clinical applications. The core of tissue engineering is to establish a three-dimensional spatial complex of cells and biomaterials, which mainly involves three elements: seed ...
Temporal and spatial presentations of biological cues are critical for tissue engineering. There is a great need in improving the incorporation of bioagent(s) (specifically growth factor(s) [GF(s)]...
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