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Layer-by-layer bioassembly of cellularized polylactic acid porous 3 membranes for bone tissue engineering

Autor
Guduric, V.; Metz, C.; Robin, S.; Bareille, R.; Levato, R.; Engel, E.; Fricain, J.; Devillärd, R.; Luzanin, O.; Catros, S.
Tipus d'activitat
Article en revista
Revista
Journal of materials science. Materials in medicine
Data de publicació
2017-03-22
Pàgina inicial
2
Pàgina final
11
DOI
https://doi.org/10.1007/s10856-017-5887-6 Obrir en finestra nova
Repositori
http://hdl.handle.net/2117/104640 Obrir en finestra nova
Resum
The conventional tissue engineering is based on seeding of macroporous scaffold on its surface (“top–down” approach). The main limitation is poor cell viability in the middle of the scaffold due to poor diffusion of oxygen and nutrients and insufficient vascularization. Layer-by-Layer (LBL) bioassembly is based on “bottom–up” approach, which considers assembly of small cellularized blocks. The aim of this work was to evaluate proliferation and differentiation of human bone marrow str...
Citació
Guduric, V., Metz, C., Robin, S., Bareille, R., Levato, R., Engel, E., Fricain, J., Devillärd, R., Luzanin, O., Catros, S. Layer-by-layer bioassembly of cellularized polylactic acid porous 3 membranes for bone tissue engineering. "Journal of materials science. Materials in medicine", 22 Març 2017, p. 2-11.
Grup de recerca
CREB - Centre de Recerca en Enginyeria Biomedica
IMEM-BRT- Innovation in Materials and Molecular Engineering - Biomaterials for Regenerative Therapies

Participants

  • Guduric, Vera  (autor)
  • Metz, Carole  (autor)
  • Robin, Siadous  (autor)
  • Bareille, Reine  (autor)
  • Levato, Riccardo  (autor)
  • Engel Lopez, Elisabet  (autor)
  • Fricain, Jean-Christophe  (autor)
  • Devillard, Raphaël  (autor)
  • Luzanin, Ognjan  (autor)
  • Catros, Sylvain  (autor)

Arxius