Dr. Alexandros Repanas
Dr. Alexandros Repanas
Hannover Medical School
Adresse e-mail validée de pharmazie.uni-halle.de
Citée par
Citée par
The significance of electrospinning as a method to create fibrous scaffolds for biomedical engineering and drug delivery applications
A Repanas, S Andriopoulou, B Glasmacher
Journal of Drug Delivery Science and Technology 31, 137-146, 2016
Dipyridamole embedded in Polycaprolactone fibers prepared by coaxial electrospinning as a novel drug delivery system
A Repanas, B Glasmacher
Journal of Drug Delivery Science and Technology 29, 132-142, 2015
Novel strategies for the formulation and processing of poorly water-soluble drugs
K Göke, T Lorenz, A Repanas, F Schneider, D Steiner, K Baumann, ...
European Journal of Pharmaceutics and Biopharmaceutics 126, 40-56, 2017
PEO–CMC blend nanofibers fabrication by electrospinning for soft tissue engineering applications
P Basu, A Repanas, A Chatterjee, B Glasmacher, U NarendraKumar, ...
Materials Letters 195, 10-13, 2017
Coaxial electrospinning as a process to engineer biodegradable polymeric scaffolds as drug delivery systems for anti-inflammatory and anti-thrombotic pharmaceutical agents
A Repanas, WF Wolkers, O Gryshkov, P Kalozoumis, M Mueller, ...
Clin. Exp. Pharmacol 5 (192), 2161-1459.1000192, 2015
PCL/PEG electrospun fibers as drug carriers for the controlled delivery of dipyridamole
A Repanas, W Wolkers, O Gryshkov, M Müller, B Glasmacher
J. Silico In Vitro Pharmacol 1, 1-10, 2015
Chalcones in Cancer: Understanding their Role in Terms of QSAR. II Part
A Repanas, AM Katsori, D Hadjipavlou-Litina
Mini Reviews in Medicinal Chemistry 13 (7), 952-970, 2013
Novel Surface Coatings Using Oxidized Glycosaminoglycans as Delivery Systems of Bone Morphogenetic Protein 2 (BMP‐2) for Bone Regeneration
R Anouz, A Repanas, E Schwarz, G Thomas
Macromolecular Biosciences 18 (11), 1800283, 2018
Electrospinning and mechanical properties of polymeric fibers using a novel gap-spinning collector
H Zernetsch, A Repanas, T Rittinghaus, M Mueller, I Alfred, B Glasmacher
Fibers and Polymers 17 (7), 1025-1032, 2016
The effect of dipyridamole embedded in a drug delivery system made by electrospun nanofibers on aortic endothelial cells
A Repanas, A Bader, A Klett, A Ngezahayo, B Glasmacher
Journal of Drug Delivery Science and Technology 35, 343-352, 2016
Solving biocompatibility layer by layer: Designing scaffolds for tissues
H Zernetsch, A Repanas, A Gryshkov, F Al Halabi, T Rittinghaus, ...
Biomedical Engineering/Biomedizinische Technik, 2013
Core/shell electrospun fibers as biodegradable scaffolds for sustained drug delivery in wound healing applications
A Repanas, H Zernetsch, B Glasmacher
Pneumologie 68 (06), A85, 2014
Polycaprolactone/ chitosan electrospun scaffolds for tissue engineering applications
A Repanas, L Lauterboeck, D Mavrilas, B Glasmacher
Scholars Journal of Applied Medical Sciences 4 (1C), 228-232, 2016
MWCNT-doped Nylon electrospun fibers as materials for increasing damage tolerance of CFRPs in structural applications
A Repanas, A Kotrotsos, V Kostopoulos, B Glasmacher
Int. J. Innov. Sci. Eng. Technol 3, 272-277, 2016
PCL/ PEG coaxially spun fibers as a drug delivery system for anti-thrombotic pharmaceutical agents
A Repanas, F AL Halabi, S Andriopoulou, S Korossis, B Glasmacher
Scholas Academic Journal of Biosciences 4 (2), 149-153, 2016
PCL/PEG coaxially spun fibers as a drug delivery system for anti-thrombotic pharmaceutical agents
GB Repanas A, AL Halabi F, Andriopoulou S, Korossis S
Scholars Academic Journal of Biosciences 4 (2), 149-153, 2016
2015 4th TERMIS World CongressBoston, MassachusettsSeptember 8–11, 2015
B Amsden, F Chen, G Hochleitner, J Groll, P Dalton, T Jüngst, ...
Tissue Engineering Part A 21 (S1), S-1-S-413, 2015
Chitosan/Polycaprolactone electrospun biodegradable scaffolds for Cardiovascular Tissue Engineering
A Repanas, H Zernetsch, D Mavrilas, B Glasmacher
Pneumologie 68 (06), A86, 2014
Layer by Layer: Designing Scaffolds for Cardiovscular Tissues
B Glasmacher, A Repanas, O Gryshkov, F AL Halabi, T Rittinghaus, ...
IFMBE 2013 41, 2013
Effect of Different Crosslinking Strategies on Physical Properties and Biocompatibility of Freestanding Multilayer Films Made of Alginate and Chitosan
G Apte, A Repanas, C Willems, A Mujtaba, CEH Schmelzer, A Raichur, ...
Macromolecular Bioscience 19 (11), 1900181, 2019
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