Our Goal
By utilizing novel 3D laser-printed materials (Research Area A), precise characterization methods (Research Area B), living multicellular systems (Research Area C), and machine-learning-based tools for the design of printed structures (Research Area D), LP4 researchers will bioengineer interconnected multicellular systems with unprecedented readout and sensing functionalities.
Custom 3D-printed microfluidics allow us to connect organoids into large structures that can be read out directly, providing unprecedented insights into early developmental stages of organoids. In addition, two-photon laser printing arrays of microelectrodes will allow us to electrically sense and stimulate brain and heart organoids in 3D.
LP4 will provide a particularly powerful, high-precision approach to address questions in stem cell biology, developmental biology, and tissue generation, while also enabling the study and generation of new disease models as platforms for drug screening and testing novel therapeutics.
Principal Investigators Involved
Jasmin Aghassi-Hagmann
Karlsruhe Institute of Technology (KIT)
Martin Bastmeyer
Karlsruhe Institute of Technology
Eva Blasco
Heidelberg University
Michael Boutros
Heidelberg University
Daniela Duarte Campos
Heidelberg University
Matthias Ebert
Heidelberg University
Peer Fischer
Heidelberg University
Nora Heinzelmann
Heidelberg University
Gáspár Jékely
Heidelberg University
Pavel Levkin
Karlsruhe Institute of Technology (KIT)
Gislene Pereira
Heidelberg University
Ulrich Schwarz
Heidelberg University
Christine Selhuber-Unkel
Heidelberg University
Venera Weinhardt
Karlsruhe Institute of Technology (KIT)
Joachim Wittbrodt
Heidelberg University
Jana Zaumseil
Heidelberg University