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Alessandro Margarita

ORCID: 0009-0009-7814-2563
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A5034689982
Research Areas
  • 3D Printing in Biomedical Research
  • Additive Manufacturing and 3D Printing Technologies
  • Cell Image Analysis Techniques
  • Innovative Microfluidic and Catalytic Techniques Innovation
  • Spaceflight effects on biology
  • Microfluidic and Bio-sensing Technologies

Politecnico di Milano
 2022-2025

 3D Bioprinting in Microgravity: Opportunities, Challenges, and Possible Applications in Space
OPENALEX - Publications 
Angelique Van Ombergen Franziska Chalupa‐Gantner Parth Chansoria Bianca Maria Colosimo Marco Costantini and 18 more Marco Domingos Alexandre Dufour Carmelo De Maria Jürgen Gröll Tomasz Jüngst Riccardo Levato Jos Malda Alessandro Margarita Christophe A. Marquette Aleksandr Ovsianikov Emma Petiot Sophia A. Read Leonardo Surdo Wojciech Święszkowski Giovanni Vozzi Johannes Windisch Marcy Zenobi‐Wong Michael Gelinsky

Abstract 3D bioprinting has developed tremendously in the last couple of years and enables fabrication simple, as well complex, tissue models. The international space agencies have recognized unique opportunities these technologies for manufacturing cell models basic research space, particular investigating effects microgravity cosmic radiation on different types human tissues. In addition, is capable producing clinically applicable grafts, its implementation therefore can support autonomous...

10.1002/adhm.202300443 article EN cc-by-nc Advanced Healthcare Materials 2023-06-23
 A novel solution for real-time in-situ cell distribution monitoring in 3D bioprinting via fluorescence imaging
OPENALEX - Publications 
Alessandro Margarita Simone Giovanni Gugliandolo Silvia Santoni Davide Moscatelli Bianca Maria Colosimo

3D bioprinting is rapidly evolving as a transformative technology for constructing biological tissues with precise cell and bioink placement. However, ensuring the quality viability of bioprinted structures presents significant challenges, highlighting need advanced monitoring systems. Our study introduces space-efficient, non-invasive approach real-time, in-situ dispersion in constructs. Utilizing novel fluorescence microscopy technique, we employ nanoparticles tagging integrate compact...

10.1088/1758-5090/adb891 article EN cc-by Biofabrication 2025-02-20
 In-situ monitoring of defects in extrusion-based bioprinting processes using visible light imaging
OPENALEX - Publications 
Simone Giovanni Gugliandolo Alessandro Margarita Silvia Santoni Davide Moscatelli Bianca Maria Colosimo

Tissue engineering techniques are central for the development of biomedical scaffolds, which primarily employed in biofabrication various artificial human tissue and organ models. Bioprinting is a new technique creating constructs that can sustain cell proliferation. The printing proceeds together with biomaterials to be printed, why studying printability these specific must explored. An appropriate hydrogel used as bioink should have numerous rheological, mechanical, biological properties...

10.1016/j.procir.2022.06.040 article EN Procedia CIRP 2022-01-01
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