En bref

Biomedical Printing


HEPIA, Geneva

janvier 2019 - juin 2021

In the interdisciplinary project 3D-NVU industrial inkjet printing is used in the context of printing in Life Science (bioprinting).

Engineered tissues appear more and more as an alternative to animal research, and, on the longer-term perspective, as a solution to the chronical lack of organ donors. Animal trials are expensive, time-consuming and increasingly controversial. Indeed, the ethical acceptance of such practices has been questioned over the last few years. In this context, bioprinting has become one of the most promising emerging fabrication technologies for tissue engineering of in vitro living tissue models. It relies on additive manufacturing processes to deposit cells and bioinks into complex 3D constructs that have the ability to mature into functional tissues. In the short-term, applications lie in the use of bioprinted 3D human tissue models in pharmaceutical R&D for preclinical drug testing and drug discovery. In the long-term, bioprinting will allow for manufacturing tissue patches and entire organs for human transplantations.

Most 3D tissues with dimensions over the millimetre need vascularization in order to function properly thanks to oxygen and nutrients supply. This limits the thickness of currently printed tissues to only a fraction of a millimeter. The building of a vascular network is one of the most challenging problems to overcome for the manufacturing of physiologically relevant tissue. A second challenge is to develop an economical and feasible technology for high-throughput, reliable and highly reproducible application of the bioprinting approach.

In the project 3D-NVU, we propose to apply industrial drop-on-demand multi-nozzle inkjet technology for the manufacturing of 3D vascular constructs: the printing of a 3D mini-brain-on-a-chip, with an integrated vasculature. The objective of this multidisciplinary project is the engineering of the next generation of vascularized in vitro alternatives with an innovative 3D manufacturing technology.

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