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Development of Polyethylene Glycol Diacrylate-Based Micropattern Substrate to Study the Interplay Between Surface Topography and Cellular Response for Tissue Engineering Applications

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Darwis, Mohd | Levario-Diaz, Victoria | Pashapour, Sadaf | Voigt, Jonah | Lebaudy, Eloïse | Sabani, Norhayati | Bakar, Ahmad | Vrana, Nihal Engin | Lavalle, Philippe | Cavalcanti-Adam, Elisabetta, Ada | Ngalim, Siti, Hawa

Edité par CCSD ; Bio-protocol LCC -

International audience. A key goal in the bioengineering field is the development of surface patterning of proteins that guide and control cellular organization. To this end, we developed a method to create a microstructured hydrogel based on softlithography techniques using polydimethylsiloxane (PDMS) and polyethylene glycol diacrylate (PEGDA). This approach involves the design of microfluidic geometries using graphical software, employing PDMS as a mold and leaving PEGDA as a substrate for the fabrication of microstructures and, thus, patterning extracellular matrix (ECM) proteins to promote cell adhesion. The combination of these techniques allows the fabrication of hydrogel microstructures without following conventional photolithography methods, such as the use of a photomask, the alignment required to produce the patterns, and the associated expenses. This study highlights the versatility and potential of PEGDA-based hydrogels as platforms to advance tissue engineering strategies.

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