CORDIS Project
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This project develops a new microfluidic platform for analyzing biomechanical interactions at the cellular level. It uses bio-inspired magnetic artificial cilia to control fluid flow and apply forces, enabling researchers to study how these interactions affect cell behavior and development in a controlled environment.
Biomechanical interactions between cells and their environment are essential in almost any biological process, from embryonic development to organ function to diseases.
Hence, biomechanical interactions are crucial for health and disease.
Examples are hydrodynamic interactions through fluid flow, and forces acting directly on cells.
Existing methods to analyze and understand these interactions are limited however, since they do not offer the required combination of precisely controlled flow and…
TECHNISCHE UNIVERSITEIT EINDHOVEN
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