In this study we show the results obtained by co-culturing fibroblasts and skeletal muscle cells on micro-engineered hydrogels subjected to piezoelectric nanoparticle-mediated physical stimuli. Results suggest that these materials can be used for developing bio-hybrid devices, by synergistically combining tissue engineering and micro-mechatronics.
Engineered materials for the development of bio-hybrid actuators
RICOTTI, Leonardo;MATTOLI, Virgilio;DARIO, Paolo;MENCIASSI, Arianna
2013-01-01
Abstract
In this study we show the results obtained by co-culturing fibroblasts and skeletal muscle cells on micro-engineered hydrogels subjected to piezoelectric nanoparticle-mediated physical stimuli. Results suggest that these materials can be used for developing bio-hybrid devices, by synergistically combining tissue engineering and micro-mechatronics.File in questo prodotto:
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