12 Sept. | 16:00 - 17:30 |
ROOM 7 | |||||||
YOUNGINNOVATION |
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THE STATE OF RESEARCH COMMUNICATED BY YOUNG RESEARCHERS | |||||||
TT.VIII - Technical Multi-Track with Parallel SYMPOSIA | |||||||
Exploring the Future: Advances in 3D Bioprinting for Tissue Engineering and Regenerative Medicine | |||||||
Co-organized with Magna Graecia University of Catanzaro | |||||||
in cooperation with SIRTEPS e SITELF | |||||||
Chair: Carmine GENTILE, University of Technology, Sydney | |||||||
3D bioprinting offers a versatile approach to creating complex tissue structures with precise architecture, supporting the development of personalized treatments and enhancing the repair and regeneration of damaged tissues. With applications ranging from tissue engineering and regenerative medicine to disease modeling and drug testing, the session will highlight recent breakthroughs and discuss their potential to revolutionize biomedical research and clinical practice. By exploring these cutting-edge developments, the session aims to showcase the transformative potential of 3D bioprinting to shape the future of medicine and improve patient outcomes in several biomedical fields. | |||||||
The symposium is part of the SE.I |
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TT.VIII.I.1 SE.I.15.1 |
Introductive Keynote Francesco PASQUALINI - CV University of Pavia New Engineering Tools to Study Cell-ECM Interactions in-vitro |
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TT.VIII.I.2 SE.I.15.2 |
Klajdi GEGA - CV Sapienza University of Rome, Italy 3d Bioprintable dystrogel faithfully recapitulates the characteristics of the dystrophic cardiac extracellular environment |
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TT.VIII.I.3 SE.I.15.3 |
Laura VETTORI - CV University of Technology Sydney, Ultimo, NSW 2007, Australia Silk fibroin modulates the mechanical properties of alginate-gelatin hydrogels and controls cardiac cell contractile function in cardiac bioinks |
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TT.VIII.I.4 SE.I.15.4 |
Michele MARINO - CV University of Rome "Tor Vergata", Italy Advanced Simulations of Bio-Ink Extrusion Dynamics |
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TT.VIII.I.5 SE.I.15.5 |
Lucia IAFRATE - CV Italian Institute of Technology (IIT), Italy Patterning decellularised human bone and vascular allograft bioinks via 3D bioprinting for skeletal tissue engineering |
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