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R Barbucci

Showing results (31-40 of 47) with videos related to

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Biomaterials|December 18, 2004
Blood vessel formation after soft-tissue implantation of hyaluronan-based hydrogel supplemented with copper ionsG Giavaresi, P Torricelli, P M Fornasari, et al.
Bioconjugate Chemistry|November 5, 1997
Photoimmobilization of sulfated hyaluronic acid for antithrombogenicityG Chen, Y Ito, Y Imanishi, et al.
Journal of Materials Science. Materials in Medicine|September 7, 2004
Micro and nano-structured surfacesR Barbucci, D Pasqui, A Wirsen, et al.
Biomacromolecules|March 15, 2005
Fibroblast cell behavior on bound and adsorbed fibronectin onto hyaluronan and sulfated hyaluronan substratesR Barbucci, A Magnani, A Chiumiento, et al.
Biomaterials|July 1, 1987
A material (PUPA) presenting both the properties of polyurethanes and the capacity of adsorbing a high quantity of heparinR Barbucci, M Benvenuti, G Dal Maso, et al.
Lymphology|April 28, 2004
Micropatterned hyaluronan surfaces promote lymphatic endothelial cell alignment and orient their growthE Weber, A Rossi, R Gerli, et al.
Biomaterials|September 27, 2002
Hyaluronic acid hydrogel in the treatment of osteoarthritisR Barbucci, S Lamponi, A Borzacchiello, et al.
Journal of Inorganic Biochemistry|November 7, 2000
Cu(II) and Zn(II) complexes with hyaluronic acid and its sulphated derivative. Effect on the motility of vascular endothelial cellsR Barbucci, A Magnani, S Lamponi, et al.
Biomaterials|January 1, 1982
Preparation and ESCA characterization of poly(vinyl chloride) surface-grafted with heparin-complexing poly(amido amine) chainsP Ferruti, R Barbucci, N Danzo, et al.
Biomaterials|January 1, 1994
In vitro biocompatibility evaluation of a heparinizable material (PUPA), based on polyurethane and poly(amido-amine) componentsA Albanese, R Barbucci, J Belleville, et al.
Pageof 5

Showing results (31-40 of 47) with videos related to

Sort By:
Pageof 5
Biomaterials|December 18, 2004
Blood vessel formation after soft-tissue implantation of hyaluronan-based hydrogel supplemented with copper ionsG Giavaresi, P Torricelli, P M Fornasari, et al.
Bioconjugate Chemistry|November 5, 1997
Photoimmobilization of sulfated hyaluronic acid for antithrombogenicityG Chen, Y Ito, Y Imanishi, et al.
Journal of Materials Science. Materials in Medicine|September 7, 2004
Micro and nano-structured surfacesR Barbucci, D Pasqui, A Wirsen, et al.
Biomacromolecules|March 15, 2005
Fibroblast cell behavior on bound and adsorbed fibronectin onto hyaluronan and sulfated hyaluronan substratesR Barbucci, A Magnani, A Chiumiento, et al.
Biomaterials|July 1, 1987
A material (PUPA) presenting both the properties of polyurethanes and the capacity of adsorbing a high quantity of heparinR Barbucci, M Benvenuti, G Dal Maso, et al.
Lymphology|April 28, 2004
Micropatterned hyaluronan surfaces promote lymphatic endothelial cell alignment and orient their growthE Weber, A Rossi, R Gerli, et al.
Biomaterials|September 27, 2002
Hyaluronic acid hydrogel in the treatment of osteoarthritisR Barbucci, S Lamponi, A Borzacchiello, et al.
Journal of Inorganic Biochemistry|November 7, 2000
Cu(II) and Zn(II) complexes with hyaluronic acid and its sulphated derivative. Effect on the motility of vascular endothelial cellsR Barbucci, A Magnani, S Lamponi, et al.
Biomaterials|January 1, 1982
Preparation and ESCA characterization of poly(vinyl chloride) surface-grafted with heparin-complexing poly(amido amine) chainsP Ferruti, R Barbucci, N Danzo, et al.
Biomaterials|January 1, 1994
In vitro biocompatibility evaluation of a heparinizable material (PUPA), based on polyurethane and poly(amido-amine) componentsA Albanese, R Barbucci, J Belleville, et al.
Pageof 5