Activity Detail
Seminar
3D Bioelectronic Interfaces to Assess Cancer in vitro
Janire Saez
The
generation of in vitro platforms capable of mimicking the in vivo situation as an
alternative to animal models is necessary for medicine and drug discovery
Electroactive poly( 3 4 ethylenedioxythiophene) polystyrene sulfonate (PEDOT PSS)
porous scaffolds can be used in the generation of 3 D bioelectronics models that
mimic an specific tissue with integrated electrical monitoring Microfluidic devices
offer optical transparency, miniaturization, and controlled media perfusion required
in organ on a chip models The interface between 3 D bioelectronics and
microfluidic devices enables real time electrical and optical monitoring of cellular
processes, such as cell proliferation, in a controlled microenvironment
My
research line focuses on the development of innovative biomimetic 3 D
bioelectronic interfaces for the simultaneous optical and electrochemical
monitoring of cancer cell proliferation and migration