Innovations in Biomedical Sciences with Micro 3D Printed Droplet Microfluidics Devices
Nano Dimension and Technical University Munich have collaborated on a groundbreaking project aimed at developing a scalable droplet microfluidic workflow for generating patient-derived organoids (PDOs) at the Center for Functional Protein Assemblies (CPA). The primary challenge faced was achieving micron-level accuracy in fabricating channels to ensure proper fluid behavior without the occurrence of channel occlusion, a critical factor for the success of the microfluidic system. Traditional fabrication methods were found to be laborious and limited in scalability, necessitating the exploration of alternative technologies.
This collaboration between Nano Dimension and Technical University Munich represents a significant advancement in droplet microfluidics with far-reaching implications for protein assemblies and cancer biology research. The successful development of a scalable droplet microfluidic workflow opens doors to new possibilities in studying complex biological processes with enhanced efficiency and precision.
During this webinar, we will delve into cutting-edge research conducted at the CPA, focusing on the development and application of Micro 3D Printed Droplet Microfluidics Devices for the research of proteins. This innovative technology holds immense promise in advancing our understanding of protein dynamics and interactions.
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