ID: 377
VERIFICATION WHETHER THE POROUS STRUCTURE MANUFACTURE WITH AM METHOD CAN BE SUITABLE FOR CELL CULLTURE
S. Sikora, M. Pawlikowski, E. Bednarczyk, R. Grygoruk
Institute of Mechanics and Printing Warsaw University of Technology, Poland
ID: 737
INVESTIGATING THE TOOLPATH DESIGN OF 3D-PRINTED PVA CRYOGELS
L. V. Gale, A. Panieraki, J. P. Crolla, L. E. J. Thomas-Seale
School of Engineering, University of Birmingham, United Kingdom
ID: 739
MECHANICAL BEHAVIOR MODELLING FOR 3D-PRINTED RESORBABLE IMPLANTS OPTIMIZATION AND SOFT TISSUE RECONSTRUCTION
X.-T.K. TRINH1, P. LECOMTE-GROSBRAS1, J.-F. WITZ1, O. MAYEUR1, F. LESAFFRE1, J. DESTOUESSE3, M. COSSON2, T.-T. DAO1
1Univ. Lille, CNRS, Centrale Lille, UMR 9013, LaMcube, F-59000 Lille, France; 2Service de Gynécologie médico-chirurgicale, Hôpital Jeanne de Flandre, CHRU de Lille, France; 3Lattice Medical, Lille, France
ID: 437
DESIGN AND RAPID PROTOTYPING OF A NEW CRANIAL IMPLANT CONCEPT FOR CRANEOPLASTY
L. A. Zambrano Martínez1, C. Asensio2
1South East Technological University, Ireland; 2Valencia International University, Spain
ID: 452
NOVEL MULTI-LAYERED 3D BIOPRINTED CONSTRUCT AS ALTERNATIVE VASCULAR CONDUIT REPLACEMENT
F. Potere1, G. Venturelli1, B. Belgio1, G. Guagliano2, F. Briatico Vangosa2, F. Boschetti1, P. Petrini2, S. Mantero1
1Laboratory of Biological Structure Mechanics (LaBS), Department of Chemistry, Materials and Chemical Engineering “Giulio Natta”, Politecnico di Milano, Milano, Italy; 2Department of Chemistry, Materials and Chemical Engineering “Giulio Natta”, Politecnico di Milano, Milano, Italy
ID: 959
FABRICATION OF MULTI-LAYERED BIOMATERIALS FOR VASCULAR APPLICATIONS THROUGH SUB-ZERO BIOPRINTING
A. Panieraki, L. V. Gale, N. Mahmoodi, R. J. Dyson, L. E. J. Thomas-Seale
University of Birmingham, United Kingdom
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