Carla Marisa dos Santos Cunha
AuthID: R-004-TRD
21
TITLE: Amino and carboxyl plasma functionalization of collagen films for tissue engineering applications
AUTHORS: Taraballi F.; Zanini S.; Lupo C.; Panseri S.; Cunha C.; Riccardi C.; Marcacci M.; Campione M.; Cipolla L.;
PUBLISHED: 2013, SOURCE: Journal of Colloid and Interface Science, VOLUME: 394, ISSUE: 1
AUTHORS: Taraballi F.; Zanini S.; Lupo C.; Panseri S.; Cunha C.; Riccardi C.; Marcacci M.; Campione M.; Cipolla L.;
PUBLISHED: 2013, SOURCE: Journal of Colloid and Interface Science, VOLUME: 394, ISSUE: 1
22
TITLE: Emerging Nanomedicine Approaches for Osteochondral Tissue Regeneration
AUTHORS: Panseri S.; D'Alessandro T.; Valentini F.; Cunha C.;
PUBLISHED: 2013, SOURCE: Nanomedicine for Drug Delivery and Therapeutics
AUTHORS: Panseri S.; D'Alessandro T.; Valentini F.; Cunha C.;
PUBLISHED: 2013, SOURCE: Nanomedicine for Drug Delivery and Therapeutics
23
TITLE: Biomimetic materials in regenerative medicine
AUTHORS: Sprio S.; Sandri M.; Iafisco M.; Panseri S.; Cunha C.; Ruffini A.; Zini N.; Toni R.; Tampieri A.;
PUBLISHED: 2013, SOURCE: Biomimetic Biomaterials: Structure and Applications
AUTHORS: Sprio S.; Sandri M.; Iafisco M.; Panseri S.; Cunha C.; Ruffini A.; Zini N.; Toni R.; Tampieri A.;
PUBLISHED: 2013, SOURCE: Biomimetic Biomaterials: Structure and Applications
24
TITLE: Evaluation of the Effects of a Moderate Intensity Static Magnetic Field Application on Human Osteoblast-Like Cells
AUTHORS: Carla Cunha; Silvia Panseri; Maurilio Marcacci; Anna Tampieri;
PUBLISHED: 2013, SOURCE: American Journal of Biomedical Engineering, VOLUME: 2, ISSUE: 6
AUTHORS: Carla Cunha; Silvia Panseri; Maurilio Marcacci; Anna Tampieri;
PUBLISHED: 2013, SOURCE: American Journal of Biomedical Engineering, VOLUME: 2, ISSUE: 6
25
TITLE: Osteochondral tissue engineering approaches for articular cartilage and subchondral bone regeneration Full Text
AUTHORS: Panseri, S; Russo, A; Cunha, C; Bondi, A; Di Martino, A; Patella, S; Kon, E;
PUBLISHED: 2012, SOURCE: Knee Surgery, Sports Traumatology, Arthroscopy, VOLUME: 20, ISSUE: 6
AUTHORS: Panseri, S; Russo, A; Cunha, C; Bondi, A; Di Martino, A; Patella, S; Kon, E;
PUBLISHED: 2012, SOURCE: Knee Surgery, Sports Traumatology, Arthroscopy, VOLUME: 20, ISSUE: 6
26
TITLE: Inspired by nature: Bio-inspired artificial scaffolds and the quest to replicate biology
AUTHORS: Cunha, C; Panseri, S; Sandri, M; Marcacci, M; Tampieri, A;
PUBLISHED: 2012, SOURCE: Materials Today, VOLUME: 15, ISSUE: 5
AUTHORS: Cunha, C; Panseri, S; Sandri, M; Marcacci, M; Tampieri, A;
PUBLISHED: 2012, SOURCE: Materials Today, VOLUME: 15, ISSUE: 5
INDEXED IN: Scopus
IN MY: ORCID
27
TITLE: Magnetic Hydroxyapatite bone substitutes to enhance tissue regeneration: Evaluation in vitro using osteoblast-like cells and in vivo in a bone defect Full Text
AUTHORS: Panseri, S; Cunha, C; D'Alessandro, T; Sandri, M; Russo, A; Giavaresi, G; Marcacci, M; Hung, CT; Tampieri, A;
PUBLISHED: 2012, SOURCE: PLoS ONE, VOLUME: 7, ISSUE: 6
AUTHORS: Panseri, S; Cunha, C; D'Alessandro, T; Sandri, M; Russo, A; Giavaresi, G; Marcacci, M; Hung, CT; Tampieri, A;
PUBLISHED: 2012, SOURCE: PLoS ONE, VOLUME: 7, ISSUE: 6
28
TITLE: Hybrid scaffolds for tissue regeneration: Chemotaxis and physical confinement as sources of biomimesis Full Text
AUTHORS: Sprio, S; Sandri, M; Panseri, S; Cunha, C; Tampieri, A;
PUBLISHED: 2012, SOURCE: Journal of Nanomaterials, VOLUME: 2012
AUTHORS: Sprio, S; Sandri, M; Panseri, S; Cunha, C; Tampieri, A;
PUBLISHED: 2012, SOURCE: Journal of Nanomaterials, VOLUME: 2012
29
TITLE: Intrinsically superparamagnetic Fe-hydroxyapatite nanoparticles positively influence osteoblast-like cell behaviour Full Text
AUTHORS: Panseri, S; Cunha, C; D'Alessandro, T; Sandri, M; Giavaresi, G; Marcacci, M; Hung, CT; Tampieri, A;
PUBLISHED: 2012, SOURCE: Journal of Nanobiotechnology, VOLUME: 10, ISSUE: 1
AUTHORS: Panseri, S; Cunha, C; D'Alessandro, T; Sandri, M; Giavaresi, G; Marcacci, M; Hung, CT; Tampieri, A;
PUBLISHED: 2012, SOURCE: Journal of Nanobiotechnology, VOLUME: 10, ISSUE: 1
30
TITLE: Hybrid composites made of multiwalled carbon nanotubes functionalized with Fe 3O 4 nanoparticles for tissue engineering applications Full Text
AUTHORS: Cunha, C; Panseri, S; Iannazzo, D; Piperno, A; Pistone, A; Fazio, M; Russo, A; Marcacci, M; Galvagno, S;
PUBLISHED: 2012, SOURCE: Nanotechnology, VOLUME: 23, ISSUE: 46
AUTHORS: Cunha, C; Panseri, S; Iannazzo, D; Piperno, A; Pistone, A; Fazio, M; Russo, A; Marcacci, M; Galvagno, S;
PUBLISHED: 2012, SOURCE: Nanotechnology, VOLUME: 23, ISSUE: 46