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dr Małgorzata Lewandowska-Szumieł

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Affiliation:

Medical University of Warsaw, Department of Biophysics and Human Physiology

address: Chałubińskiego 5, Warszawa, 02-004, Poland
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Participant:

E-MRS Fall Meeting 2003

began: 2003-09-15
ended: 2003-09-11
Presented:
E-MRS Fall Meeting 2003
Alternative methods bring a new input in biocompatibility testing
E-MRS Fall Meeting 2003
Materials for Medical Applications

Participant:

E-MRS Fall Meeting 2004

began: 2004-09-06
ended: 2004-09-10
Presented:
E-MRS Fall Meeting 2004
Cells and scaffolds for tissue engineering - what is needed for success?

Participant:

E-MRS Fall Meeting 2008

began: 2008-09-15
ended: 2008-09-19
Presented:
E-MRS Fall Meeting 2008
A bit of physics in our understanding of the cell and tissue interaction with scaffolds

Participant:

WANAMED-CePT 2015

began: 2015-07-14
ended: 2015-07-14
Presented:

Publications:
  1. A bit of physics in our understanding of the cell and tissue interaction with scaffolds
  2. Alginate hydrogel-candidate support for cell transplantation - preliminary observation in human chondrocyte culture
  3. Alternative methods bring a new input in biocompatibility testing
  4. Bone tissue engineered product based on human bone derived cells and polyurethane scaffold
  5. Calcite-based material for tissue engineering ceramic scaffolds
  6. Cells and scaffolds for tissue engineering - what is needed for success?
  7. Culture of osteoblasts on nanostructured titanium – preliminary observation
  8. Differentiation of cells from adipose tissue into osteoblasts in the presence of biomaterials in vitro (preliminary report)
  9. Effect of Ca&P ions implantation on the corrosion resistance and biocompatibility of titanium
  10. Effect of diisocyanate chemical structure on biocompatibility of segmented polyurethanes
  11. Materials for Medical Applications
  12. Mechanical characteristics of polymeric support as an important factor in osteoblast culture in vitro
  13. Nanomechanical measurements of thin dextran layers
  14. Omentum major as potential source of osteogenic cells for tissue engineering (preliminary report)
  15. Optimization of polyurethane structure as the potential materials for bone tissue engineering applications
  16. Poly(epsilon-caprolactone)- and poly(methyl methacrylate)-based scaffolds in human bone-derived cell cultures in vitro
  17. Polyurethane-based material with calcite and aragonite for tissue engineering composite scaffolds
  18. Porous polymeric scaffolds for bone regeneration
  19. Synthesis of highly biocompatible hydroxyapatite nanopowders
  20.  A  degradable and highly porous polyurethane scaffolds for bone tissue engineering



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