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Logo: Institut für Mehrphasenprozesse/Leibniz Universität Hannover
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Logo: Institut für Mehrphasenprozesse/Leibniz Universität Hannover
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Dr. rer. nat. Alexandros Repanas


Institut für Mehrphasenprozesse
Raum: 216

Telefon:0511 532 1344
E-Mail:repanasimp.uni-hannover.de

Bild von Dr. rer. nat. Alexandros Repanas

Research Project:

  • A novel drug delivery system designed from polycaprolactone based coaxially electrospun fibers

Studies:

  • 10.2012 - 01.2016:  Doctoral candidate, Institut für Mehrphasenprozesse; IMP, LUH, Hannover, Germany
  • 09.2010 - 03.2013:  M.Sc., Department of Physics, Aristotle University of Thessaloniki, Greece
  • 09.2005 - 07.2010:  Dipl.-Pharm., School of Pharmacy, Aristotle University of Thessaloniki, Greece
  • 09.2002 - 07.2005:  Abitur, "1. General High-school", Kozani, Greece

Publications:

  • Abstracts


  • A. Repanas, S. Logothetidis et al. Engineering of PLGA/PEG nanoparticles as a versatile platform for drug delivery. Biomed Tech 2015;60(Suppl. 1) :S2 DOI: 10.1515/bmt-2015-5000
  • F. AL Halabi, A. Repanas et al. Effect of different solvents on morphology and properties of piezoelectric PVDF scaffolds for nerve regeneration. Biomed Tech 2015;60(Suppl. 1):S7 DOI: 10.1515/bmt-2015-5000
  • A. Repanas, D. Mavrilas et al. Fabrication of electrospun microfibers for cardiovascular tissue engineering. Biomed Tech 2015;60(Suppl. 1) :S18 DOI: 10.1515/bmt-2015-5000
  • A. Repanas, B. Glasmacher et al. Coaxial electrospinning as a technology to fabricate scaffolds for sustained delivery of hydrophilic drugs. Biomed Tech 2015;60(Suppl. 1) :S19 DOI: 10.1515/bmt-2015-5000
  • S. Zia, A. Repanas, A. Haverich et al. Development of engineered valved venal grafts with increased antimicrobial resistance. Tissue Engineering Part A. Sept 2015; 21(S1): S-224
  • M. Müller, A. Repanas et al. A two-layer electrospinning approach to enhance cell adhesion and infiltration of vascular grafts. Int J Artif Organs 2015;38(7):360-392 DOI: 10.5301/ijao.5000417
  • M. Müller, A. Repanas et al. Macroscopic modifications of electrospun vascular grafts to avoid kinking. Int J Artif Organs 2015;38(7):360-392 DOI: 10.5301/ijao.5000417
  • F. AL Halabi, A. Repanas,  et al. Electrospun pieyoelectric PVDF scaffolds with different solution parameters for nerve regeneration. Int J Artif Organs 2015;38(7):360-392 DOI: 10.5301/ijao.5000417
  • A. Repanas, M. Müller et al. Controlled release of hydrophilic pharmaceutical agents from coaxially electrospun fibers. Int J Artif Organs 2015;38(7):360-392 DOI: 10.5301/ijao.5000417
  • L. Lauterböck, A. Repanas, W.F. Wolkers et al. Relevance of material properties of cryopreserved electrospun fiber mats for the long term storage in Biobanks. ISBN 978-3-89838-700-2
  • A. Repanas, H. Zernetsch, B. Glasmacher. Coaxial electrospinning of fibers as a process to encapsulate antiseptic drugs. Int J Artif Organs 2014;37(8):641 ISSN 0391-3988
  • A. Repanas, H. Zernetsch et al. Engineering of biodegradable polymeric scaffolds as drug delivery carriers using core/shell fibers. Int J Artif Organs 2014;37(8):592-593 ISSN 0391-3988
  • A. Repanas, H. Zernetsch, B. Glasmacher. Core/Shell electrospun fibers as biodegradable scaffolds for sustained drug delivery in Wound Healing applications. Pneumologie 2014;68(A85):430 DOI: 10.1055/s-0034-1376854
  • A. Repanas, H. Zernetsch et al. Chitosan/Polycaprolactone electrospun biodegradable scaffolds for Cardiovascular Tissue Engineering. Pneumologie 2014;68(A86):430 DOI: 10.1055/s-0034-1376855
  • H. Zernetsch, A. Repanas et al. Solving Biocompatibility Layer by Layer: Designing Scaffolds for Tissues. Biomed Tech 2013;58(Suppl. 1) DOI: 10.1515/bmt-2013-4065
  • A. Repanas, D. Hadjipavlou-Litina. 2,3-dihydro-1,4-benzoxazines & quinolinediones inhibitors of Angiogenesis with anticancer activity. -Quantative-structure activity relationships (QSARs). Eur J Drug Metabol Pharmacokinet 2009;34(Special issue):24 DOI: 10.13140/RG.2.1.3977.4160

 

 

  • Full-papers


  • A. RepanasL. Lauterboeck, D. Mavrilas, B. Glasmacher. Polycaprolactone/ chitosan electrospun scaffolds for tissue engineering applications. Sch J App Med Sci 2016;4(1C):228-232
  • A. RepanasV. Karagkiozaki, S. Logothetidis, B. Glasmacher. PLGA/ PEG particles created by Nano-precipitation as drug delivery carriers for dipyridamole. Sch Acad J Pharm 2016;5(1):1-5
  • A. Repanas, S. Andriopoulou, B. Glasmacher. The significance of electrospinning as a method to create fibrous scaffolds for biomedical engineering and drug delivery applications. J Drug Delivery Sci Tech 2016;31:137-146 DOI: 10.1016/j.jddst.2015.12.007
  • A. RepanasW.F. Wolkers O. Gryshkov, P. Kalozoumis, M. Müller, H. Zernetsch, S. Korossis, B. Glasmacher. Coaxial Electrospinning as a Process to Engineer Biodegradable Polymeric Scaffolds as Drug Delivery Systems for Anti-Inflammatory and Anti- Thrombotic Pharmaceutical Agents. Clin Exp Pharmacol 2015;5(5):192-199 DOI:10.4172/2161-1459.1000192
  • A. Repanas, W.F. Wolkers O. Gryshkov, M. Müller, B. Glasmacher. PCL/PEG Electrospun Fibers as Drug Carriers for the Controlled Delivery of Dipyridamole. J In Silico & In Vitro Pharm 2015;1(2):1-10
  • A. Repanas, B. Glasmacher. Dipyridamole embedded in Polycaprolactone fibers prepared by coaxial electrospinning as a novel drug delivery system. J Drug Delivery Sci Tech 2015;29:132-142 DOI: 10.1016/j.jddst.2015.07.001
  • A. Repanas, A.-M. Katsori, D. Hadjipavlou-Litina. Chalcones in Cancer: Understanding their Role in terms of QSAR. II part#. Mini Rev Med Chem 2013;13(7):952-970 DOI: 10.2174/1389557511313070002

Conference Presentations:

  • Oral Presentations


  • A. Repanas, S. Logothetidis et al. “Engineering of PLGA/PEG nanoparticles as a versatile platform for drug delivery”. DGBMT 2015, September 16-18, Lübeck, Germany (A02 p.62)
  • F. AL Halabi, A. Repanas et al. “Effect of different solvents on morphology and properties of piezoelectric PVDF scaffolds for nerve regeneration”. DGBMT 2015, September 16-18, Lübeck, Germany (A07 p.67)
  • A. Repanas, M. Müller et al. “Controlled release of hydrophilic pharmaceutical agents from coaxially electrospun fibers”. ESAO 2015, September 2-5, Leuven, Belgium (O118 p.392)
  • M. Müller, A. Repanas et al. “Macroscopic modifications of electrospun vascular grafts to avoid kinking”. ESAO 2015, September 2-5, Leuven, Belgium (O86 p.383)
  • M. Müller, A. Repanas et al. “A two-layer electrospinning approach to enhance cell adhesion and infiltration of vascular grafts”. ESAO 2015, September 2-5, Leuven, Belgium (O84 p.383)
  • F. AL Halabi, A. Repanas et al. “Electrospun piezoelectric PVDF scaffolds with different solution parameters for nerve regeneration”. ESAO 2015, September 2-5, Leuven, Belgium (O25 p.367)
  • A. Repanas, B. Glasmacher et al. “Blend electrospinning of biodegradable chitosan/ Polycaprolactone fibers as a process to create scaffolds for cardiovascular tissue engineering”. 27th European Conference on Biomaterials ESB 2015, August 30 – September 3, Krakow, Poland (O257 p.462)
  • A. Repanas, B. Glasmacher et al. “Biomechanics and artificial organs”. IUPESM 2015, June 7-12, Toronto, Canada (SP151.1 p.433)
  • L. Lauterböck, A. Repanas et al. “Relevanz der Eigenschaften kryokonservierter elektrogesponnener Scaffolds für die Langzeitlagerung in Biobanken”. 3rd National Biobanking Symposium 2014, December 3-4, Berlin, Germany (p.153)
  • B. Glasmacher, A. Repanas et al. “Scaffolds and tissue engineering”. IFMBE 2014, October 14-16, Göteborg, Sweden. (Plenary session)
  • A. Repanas, M. Müller et al. “Engineering of biodegradable polymeric scaffolds as drug delivery carriers using core/shell fibers”. ESAO 2014, September 17-20, Rome, Italy (O48 p.592)
  • B. Glasmacher, A. Repanas et al. “Layer by Layer: Designing Scaffolds for Cardiovascular Tissues”. IFMBE/MEDICON 2013, September 25-28, Seville, Spain (p. 1638)
  • H. Zernetsch, A. Repanas, et al. “Solving biocompatibility layer by layer: Designing scaffolds for tissues”, BMT 2013, September 19-21, Graz, Austria. (C5 p.325)
  • B. Glasmacher, A. Repanas et al. “Solving the problem layer by layer: Designing scaffolds for cardiovascular tissues”. ESB 2013, August 25-28, Patras, Greece (S44.3 p.43)

 

 

  • Poster presentations


  • A. Repanas, B. Glasmacher et al. “Electrospinning as a process to encapsulate pharmaceuticals for sustained drug delivery applications”. SPhERe 2015, October 18-20, Braunschweig, Germany (P2.11 p.97-98)
  • A. Repanas, D. Mavrilas et al. “Fabrication of electrospun microfibers for cardiovascular tissue engineering”. DGBMT 2015, September 16-18, Lübeck, Germany (PA06 p.78)
  • A. Repanas, B. Glasmacher et al. “Coaxial electrospinning as a technology to fabricate scaffolds for sustained delivery of hydrophilic drugs”. DGBMT 2015, September 16-18, Lübeck, Germany (PA07 p.79)
  • S. Zia, A. Repanas, A. Haverich et al. “Development of Engineered Valved Venal Grafts with Increased Antimicrobial Resistance”. TERMIS 2015, September 8-11, Boston, USA (S-224)
  • A. Repanas, S. Korossis et al. “Morphological and biomechanical analysis of biodegradable electrospun scaffolds for drug delivery”. 27th European Conference on Biomaterials ESB 2015, August 30 – September 3, Krakow, Poland (P468 p.675)
  • F. AL Halabi, A. Repanas et al. “Coaxial electrospun scaffolds with piezoelectric effect for tissue regeneration”. EnFI 2015, July 6-7, Hannover, Germany (E6 p.109)
  • A. Repanas, S. Logothetidis et al. “Design of biodegradable polymeric drug delivery systems made of electrospun nanofibers for sustained release of anti-inflammatory pharmaceutical agents”. NN 2015, July 7-10, Thessaloniki, Greece (P3-8 p.230)
  • A. Repanas, F. AL Halabi et al. “Fabrication of biodegradable fibrous scaffolds for sustained delivery of anti-inflammatory and antiseptic agents”. BIOFABRICATION 2015, June 25-26, Hannover, Germany (P19 p.7)
  • A. Repanas, B. Glasmacher et al. “Electrospinning of PCL/Chitosan polymeric fibrous membranes as scaffolds for cardiovascular tissue engineering applications”. IUPESM 2015, June 7-12, Toronto, Canada (PS02.005 p.536-537)
  • F. AL Halabi, A. Repanas et al. “Coaxial electrospinning of piezoelectric PVDF/PCL scaffolds for nerve regeneration”. IUPESM 2015, June 7-12, Toronto, Canada (PS02.006 p.537)
  • D. Mavrilas, A. Repanas et al. “Microscopic & nanomechanical characteristics of nanostructured polymers for use as histotechnological scaffolds”. 6th Hellenic Conference ELEMBIO 2014, October 10-12, Patras, Greece (P16 p.84)
  • A. Repanas, L. Lauterböck et al. “Electrospun fibers as scaffolds for cryopreservation of cells for tissue engineering”. SLTB 2014, October 8-10, London, United Kingdom (P47 p.96)
  • A. Repanas, F. AL Halabi et al. “Coaxial electrospinning of fibers as a process to encapsulate antiseptic drugs”. ESAO 2014, September 17-20, Rome, Italy (P154 p.641)
  • A. Repanas, B. Glasmacher, D. Mavrilas. “Biomechanical & Morphological analysis of blend polymeric electrospun scaffolds for Cardiovascular TE”. ESB 2014, August/September 31-3, Liverpool, United Kingdom (P437 p.897)
  • A. Repanas, H. Zernetsch, B. Glasmacher. “Core/Shell electrospun fibers as biodegradable scaffolds for sustained drug delivery in Wound Healing applications”. DZL 2014, May 8-10, Hannover, Germany (P105 p.143)
  • A. Repanas, H. Zernetsch et al. “Chitosan/Polycaprolactone electrospun biodegradable scaffolds for Cardiovascular Tissue Engineering”. DZL 2014, May 8-10, Hannover, Germany (P106 p.144)
  • A. Repanas, L. Lauterböck et al. “Cryopreservation of Electrospun Scaffolds for Tissue Engineering”. SLTB 2013, October 6-9, Hannover, Germany (P10 p.62)
  • A. Repanas, H. Zernetsch et al.. “Nano & Micro structured electrospun blend Polymeric scaffolds for Cardiovascular TE: Biomechanics and Morphology’’. ESB 2013, August 25-28, Patras, Greece (PP-160)
  • A. Repanas, S. Logothetidis et al. “Synthesis of biodegradable Nanoparticles for Drug Delivery’’. NN 13, July 6-13 2013, Thessaloniki, Greece (P III-31 p.300)
  • A. Repanas, S. Logothetidis et al. “Engineering of biodegradable polymeric nanoparticles for drug delivery’’. E-MRS 2013, May 27-31, Strasbourg, France (U.PII14 p.59)
  • A. Repanas, S. Logothetidis et al. “Synthesis of biodegradable Nanoparticles for Drug Delivery’’. NN 12, June 30-July 7 2012, Thessaloniki, Greece (P III-28 p.298)
  • A. Repanas, A-M. Katsori, D. Hadjipavlou-Litina. “2D-QSAR Comparative studies on chalcones derivatives with anticancer activity”. 18th Euro QSAR 2010, September 19-24, Rhodes, Greece (P II-53 p.286)
  • A. Repanas, A-M. Katsori, D.Hadjipavlou-Litina. “Chalcone derivatives as anti-inflammatory, antioxidant and anticancer candidates”. 11th Conference “Medicinal Chemistry: Drug Discovery and Design”. April 26-28 2010, Patras, Greece (P16, p.72)
  • A. Repanas, A-M. Katsori, D. Hadjipavlou-Litina. “Chalcone derivatives designed as anti-inflammatory, antioxidant and anticancer candidates”. 3rd Hellenic symposium on organic synthesis from chemistry to biology, medicine and materials science, October 15-17 2009, Athens, Greece (P51 p.111)
  • A. Repanas, D. Hadjipavlou-Litina. “2,3-dihydro-1,4-benzoxazines & quinolinediones inhibitors of Angiogenesis with anticancer activity. -Quantative-structure activity relationships (QSARs). 14th Pan-Hellenic Pharmaceutical congress 2009, May 9-11, Athens, Greece (042 p.24)