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VEGF
165
and bFGF protein-based therapy in a slow release system to improve angiogenesis in a bioartificial dermal substitute in vitro and in vivo
I. Wilcke
*
, J. A. Lohmeyer, S. Liu, A. Condurache, S. Krüger,
P. Mailänder
, H. G. Machens
*
Corresponding author for this work
Clinic of Plastic Surgery
Institute of Signal Processing
Institute of Transfusion Medicin
University of Kiel
University of Groningen
Wuhan University
Huazhong University of Science and Technology
41
Citations (Scopus)
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165
and bFGF protein-based therapy in a slow release system to improve angiogenesis in a bioartificial dermal substitute in vitro and in vivo'. Together they form a unique fingerprint.
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Neuroscience
In Vivo
100%
In Vitro
100%
Angiogenesis
100%
Growth Factor
100%
Vasculotropin 165
100%
DNA Template
22%
Immunology and Microbiology
Fibroblast Growth Factor 2
100%
Angiogenesis
100%
Growth Factor
100%
Vasculotropin 165
100%
Fibrin Glue
55%
Protein Secretion
11%
Back
11%
Medicine and Dentistry
In Vitro
100%
Angiogenesis
100%
Vasculotropin 165
100%
Fibrin Glue
55%
DNA Template
22%
Skin Defect
11%
Bioavailability
11%
Pharmacology, Toxicology and Pharmaceutical Science
Growth Factor
100%
Fibrin Glue
55%
Neovascularization (Pathology)
11%
Skin Defect
11%
Bioavailability
11%