Sajad Razavi Bazaz scite author profile

Microfluidic devices have shown promising applications in the bioprocessing industry. However, the lack of modularity and high cost of testing and error limit their implementation in the industry. Advances in 3D printing technologies have facilitated the conversion of microfluidic devices from research output to applicable industrial systems. Here, for the first time, we presented a 3D printed modular microfluidic system consisting of two micromixers, one spiral microfluidic separator, and one microfluidic concentrator. We showed that this system can detach and separate mesenchymal stem cells (MSCs) from microcarriers (MCs) in a short time while maintaining the cell’s viability and functionality. The system can be multiplexed and scaled up to process large volumes of the industry. Importantly, this system is a closed system with no human intervention and is promising for current good manufacturing practices. Graphical Abstract

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ImmunoInertial microfluidics: A novel strategy for isolation of small EV subpopulations

Bazaz

Zhand

Salomon

et al. 2023

Applied Materials Today

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Sajad Razavi Bazaz

A rapidly prototyped lung-on-a-chip model using 3D-printed molds

Microfluidic Platforms for Cell Sorting

Biological Diagnosis Based on Microfluidics and Nanotechnology

A modular 3D printed microfluidic system: a potential solution for continuous cell harvesting in large-scale bioprocessing

ImmunoInertial microfluidics: A novel strategy for isolation of small EV subpopulations

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