3D Bioprinting for Disease Modelling and Personalized Medicine

Are you interested in learning about cutting-edge 3D Bioprinting methods for creating complex in vitro tumor models?

Next-Generation 3D Bioprinting for Disease Modelling and Personalized Medicine

If so, grab a cup of tea and join our scientific discussion on:

November 21, 2024, 4 pm Munich CET

(10 am New York EST | 3 pm London GMT)

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The number of participants is limited, so please reserve your seat now.

ibiTea Topic Outline

Advances in 3D Bioprinting for Tumor Microenvironment Modeling and Personalized Medicine

Presented by Cristina Scielzo, IRCCS Hospital San Raffaele Milan, Italy

Our first speaker, Cristina Scielzo, will present a dynamic 3D bioprinted in vitro tumor model system to study the interaction of leukemia cells with their microenvironment.

Confocal fluorescence image of a 3D bioprinted CLL cell line expressing GFP (green) with human lymphoid fibroblast. The cells were stained for actin (Phalloidin, red) and the cell nuclei (DAPI, blue). Scale bar: 100 µm

Cristina Scielzo, PhD, is Group Leader of the Malignant B cells biology and 3D modelling Unit in the Division of Experimental Oncology, IRCCS Hospital San Raffaele Milan, Italy.

Her team is studying the leukemia / microenvironment interactions in response to therapies. They are developing new advanced 3D in vitro co-culture systems by prototyping a bench-top 3D bio-printer and dynamic growth in bioreactor to recapitulate in vitro a proper lymphoid microenvironment.

Advancing Beyond 3D Bioprinting: New Approaches for the Fabrication of Human Tissues for Disease Modelling

Presented by Gianluca Cidonio, Sapienza University of Rome, Italy

Our second speaker, Gianluca Cidonio, will present a cutting-edge microfluidic-based 3D bioprinting method for precise and reliable control of the material composition and cell organization creating next-generation in vitro tissue models.

3D bioprinted human bone marrow stromal cells colonising the surface of the lattice structure after 21 days of culture. Scale bar: 50 μm.

Dr. Gianluca Cidonio is an Assistant Professor (Researcher Tenure-Track) and Group Leader of the 3D Bioprinting lab at the Department of Mechanical and Aerospace Engineering (DIMA) at the University of Rome La Sapienza. Dr. Cidonio is a research scientist and a bioengineer, graduated (BSc and MSc) in Biomedical Engineering from Sapienza University of Rome.

He has worked for more than 10 years on the development of new 3D bioprinting approaches for the regeneration of human tissues and disease modelling purposes. Presently, Dr. Cidonio is interested in pushing forward the boundaries of “what we can print with unique microfluidic-assisted approaches”.

For any questions, please contact:

Thommie Karlsson
Application / Product integration

Mobile: +46 (0)738-00 95 75
thommie.karlsson@micromedic.se