There is great interest in measuring cell functions on three dimensional scaffolds without using invasive and destructive methods. Here we describe how scaffolds for tissue engineering can also be used as sensors for monitoring cellular activity such as adhesion and spreading. Carbon nanotube polyester-polymer composites were fabricated into membranes and scaffolds with electro-conductive properties. Several nanotube concentrations were introduced aiming at understanding their influence on mechanical properties, impedance features and electric percolation threshold of the polymer matrix. It was observed that a concentration of 0.3% was able to transform an insulating matrix into a conductive one. Experimental results were compared with theoretical models. Impedance techniques were used to measure the effects of media and cell cultures on composite membranes and the results were analysed using lumped parameter models. Impedance changes can be correlated with protein or cell adhesion, spreading and changes in cell density.

Smart Sensing Scaffolds

DE MARIA, CARMELO;VOZZI, GIOVANNI;AHLUWALIA, ARTI DEVI
2014-01-01

Abstract

There is great interest in measuring cell functions on three dimensional scaffolds without using invasive and destructive methods. Here we describe how scaffolds for tissue engineering can also be used as sensors for monitoring cellular activity such as adhesion and spreading. Carbon nanotube polyester-polymer composites were fabricated into membranes and scaffolds with electro-conductive properties. Several nanotube concentrations were introduced aiming at understanding their influence on mechanical properties, impedance features and electric percolation threshold of the polymer matrix. It was observed that a concentration of 0.3% was able to transform an insulating matrix into a conductive one. Experimental results were compared with theoretical models. Impedance techniques were used to measure the effects of media and cell cultures on composite membranes and the results were analysed using lumped parameter models. Impedance changes can be correlated with protein or cell adhesion, spreading and changes in cell density.
2014
DE MARIA, Carmelo; Whulanza, Yudan; Vozzi, Giovanni; Ahluwalia, ARTI DEVI
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11568/754418
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