Overview and session details of the ESB2023 congress.
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Session Chair: Miguel Dias Castilho Session Chair: Cecilia Persson
Location:Berlin (Room 0.2)
Presentations
9:30 - 9:42 ID: 524
BIOMIMETIC 3D PRINTED INTERFACES
M. J. Mirzaali1, M. C. Saldivar1, E. Tay1, Z. Doubrovski2, A. A. Zadpoor1
1Department of Biomechanical Engineering, Faculty of Mechanical, Maritime, and Materials Engineering, Delft University of Technology (TU Delft), The Netherlands; 2Faculty of Industrial Design Engineering (IDE), Delft University of Technology (TU Delft), The Netherlands
9:42 - 9:54 ID: 651
OSTEOINDUCTIVE SCAFFOLD DESIGN: DIGITAL OPTIMISATION AND PREVENTION OF OVER-SPECIALISATION
C. Villette1, L. Stoecker2, L. Geris1,3, M. Castilho2
1KU Leuven, Belgium; 2Eindhoven University of Technology, The Netherlands; 3University of Liège, Belgium
9:54 - 10:06 ID: 799
USING MELT-ELECTROWRITTEN FIBROUS MESH TO ELEVATE FLUID PRESSURISATION IN HYDROGELS
E. K. Moo1,2, M. Ebrahimi2, A. Hrynevich3, M. de Ruijter3, M. Castilho3,4, J. Malda3, R. K. Korhonen2
1Carleton University, Canada; 2University of Eastern Finland, Finland; 3University Medical Center Utrecht; 4Eindhoven University of Technology, the Netherlands
10:06 - 10:18 ID: 672
BIOMECHANICAL CHARACTERIZATION OF A SILK FIBROIN-BASED BIOINK FOR 3D PRINTING IN TISSUE REGENERATION
G. M. Di Gravina1, E. Bari2, F. Scocozza1, S. Perteghella1, B. Frongia1, S. Tengattini1, L. Segale2, M. L. Torre2, M. Conti1
1University of Pavia, Italy; 2University of Piemonte Orientale, Novara, Italy
10:18 - 10:30 ID: 753
NATURE-INSPIRED TOUGHENING MECHANISM OF 3D PRINTED HYDROXYAPATITE SCAFFOLDS FOR BONE TISSUE ENGINEERING
L. D'Andrea1, T. Yang2, M. Dao2, P. Vena1
1Politecnico di Milano, Italy; 2Massachusetts Institute of Technology, USA