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The Biochips project develops a novel method to create cell-laden devices that mimic the natural environment of tissues. By combining advanced 3D printing techniques with self-assembling materials, it enables the fabrication of complex microtissues for applications in drug testing and disease modeling.
Biochips proposes an innovative bottom-up strategy to directly fabricate cell-laden devices that recreate the unique biophysical cues from the native fibrillar ECMs and allow the design of bioengineered microtissues with arbitrary geometries.
The proposed platform combines the concepts of matrix-assisted 3D free-form bioprinting with the controlled self-assembly of colloidal cellulose nanocrystals (CNCs) to fabricate cell-laden constructs embedded within its own fibrillar CNC hydrogel device.
Th…
UNIVERSIDADE DO MINHO
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