Follow
Ugo D'Amora
Ugo D'Amora
Institute of Polymers, Composites and Biomaterials (IPCB) - National Research Council (CNR)
Verified email at unina.it - Homepage
Title
Cited by
Cited by
Year
The biomimetic design and 3D printing of customized mechanical properties porous Ti6Al4V scaffold for load-bearing bone reconstruction
B Zhang, X Pei, C Zhou, Y Fan, Q Jiang, A Ronca, U D'Amora, Y Chen, ...
Materials & Design 152, 30-39, 2018
2672018
Magnetic poly (ε-caprolactone)/iron-doped hydroxyapatite nanocomposite substrates for advanced bone tissue engineering
A Gloria, T Russo, U D'Amora, S Zeppetelli, T d'Alessandro, M Sandri, ...
Journal of the Royal society interface 10 (80), 20120833, 2013
2062013
Towards the design of 3D fiber-deposited poly (-caprolactone)/iron-doped hydroxyapatite nanocomposite magnetic scaffolds for bone regeneration
R De Santis, A Russo, A Gloria, U D'Amora, T Russo, S Panseri, M Sandri, ...
Journal of biomedical nanotechnology 11 (7), 1236-1246, 2015
1472015
Fabrication and characterisation of PCL and PCL/PLA scaffolds for tissue engineering
T Patrício, M Domingos, A Gloria, U D'Amora, JF Coelho, PJ Bártolo
Rapid Prototyping Journal 20 (2), 145-156, 2014
1312014
A basic approach toward the development of nanocomposite magnetic scaffolds for advanced bone tissue engineering
R De Santis, A Gloria, T Russo, U D'Amora, S Zeppetelli, C Dionigi, ...
Journal of Applied Polymer Science 122 (6), 3599-3605, 2011
1182011
Hyaluronic acid as a bioink for extrusion-based 3D printing
D Petta, U D’Amora, L Ambrosio, DW Grijpma, D Eglin, M D’este
Biofabrication 12 (3), 032001, 2020
1152020
PLDLA/PCL-T scaffold for meniscus tissue engineering
AR Esposito, M Moda, SMM Cattani, GM de Santana, JA Barbieri, ...
BioResearch open access 2 (2), 138-147, 2013
1002013
Bone Tissue Engineering: 3D PCL-based nanocomposite scaffolds with tailored properties
D. Ronca, F. Langella, M. Chierchia, U. D’Amora, T. Russo, M. Domingos, A ...
Procedia Cirp 49 doi: 10.1016/j.procir.2015.07.028 49 (51–54), 2016
97*2016
3D additive-manufactured nanocomposite magnetic scaffolds: Effect of the application mode of a time-dependent magnetic field on hMSCs behavior
U D'Amora, T Russo, A Gloria, V Rivieccio, V D'Antò, G Negri, L Ambrosio, ...
Bioactive Materials, https://doi.org/10.1016/j.bioact, 2017
902017
3D fibre deposition and stereolithography techniques for the design of multifunctional nanocomposite magnetic scaffolds
Roberto De Santis, Ugo D’Amora, Teresa Russo, Alfredo Ronca, Antonio Gloria ...
J. Mater Sci: Mater Med 26 (250), 2015
902015
Mesenchymal stem cell-based cartilage regeneration approach and cell senescence: can we manipulate cell aging and function?
Marta Anna Szychlinska, Martin James Stoddart, Ugo D’Amora, Luigi Ambrosio ...
Tissue Engineering Part B: Reviews, doi:10.1089/ten.TEB.2017.0083, 2017
86*2017
Technical features and criteria in designing fiber-reinforced composite materials: from the aerospace and aeronautical field to biomedical applications
A Gloria, D Ronca, T Russo, U D'Amora, M Chierchia, R De Santis, ...
Journal of Applied Biomaterials and Biomechanics 9 (2), 151-163, 2011
832011
Preliminary focus on the mechanical and antibacterial activity of a PMMA-based bone cement loaded with gold nanoparticles
T Russo, A Gloria, R De Santis, U D'amora, G Balato, A Vollaro, O Oliviero, ...
Bioactive materials 2 (3), 156-161, 2017
822017
Injectable functional biomaterials for minimally invasive surgery
MG Raucci, U D'Amora, A Ronca, L Ambrosio
Advanced healthcare materials 9 (13), 2000349, 2020
742020
Systematic analysis of injectable materials and 3D rapid prototyped magnetic scaffolds: from CNS applications to soft and hard tissue repair/regeneration
T Russo, U D’Amora, A Gloria, M Tunesi, M Sandri, S Rodilossi, D Albani, ...
Procedia Engineering 59, 233-239, 2013
692013
Advanced composites for hard‐tissue engineering based on PCL/organic–inorganic hybrid fillers: From the design of 2D substrates to 3D rapid prototyped scaffolds
R De Santis, A Gloria, T Russo, U D'Amora, V D'Antò, F Bollino, ...
Polymer Composites 34 (9), 1413-1417, 2013
662013
A route toward the development of 3D magnetic scaffolds with tailored mechanical and morphological properties for hard tissue regeneration: Preliminary study
R De Santis, A Gloria, T Russo, U D’Amora, S Zeppetelli, A Tampieri, ...
Virtual and Physical Prototyping 6 (4), 189-195, 2011
632011
Poly (ε-caprolactone) reinforced with sol-gel synthesized organic-inorganic hybrid fillers as composite substrates for tissue engineering.
T Russo, A Gloria, ...
Journal of applied biomaterials & biomechanics: JABB 8 (3), 146, 2010
63*2010
Bioactivation routes of gelatin-based scaffolds to enhance at nanoscale level bone tissue regeneration
MG Raucci, U D'Amora, A Ronca, C Demitri, L Ambrosio
Frontiers in bioengineering and biotechnology 7, 27, 2019
562019
From 3D hierarchical scaffolds for tissue engineering to advanced hydrogel-based and complex devices for in situ cell or drug release
A Gloria, T Russo, DFL Rodrigues, U D’Amora, F Colella, G Improta, ...
Procedia CIRP 49, 72-75, 2016
512016
The system can't perform the operation now. Try again later.
Articles 1–20