AMPEROMETRIC DETECTION OF PYOCYANIN IN NANOFLUIDIC CHANNELS

Microfabricated nanofluidic electrode assemblies (NEAs) with integrated palladium references were used to amperometrically monitor changes in pyocyanin concentration. Pyocyanin is an electroactive molecule that is produced by the opportunistic pathogen Pseudomonas aeruginosa and is directly linked to cellular processes that increase both robustness and virulence in this bacterium. This is the first time that pyocyanin has been measured in real time using microfabricated sensors. A linear response in faradaic current (R2 = 0.96) was observed over a biomedically relevant range of pyocyanin concentrations (0–100 μM) while continuously measuring the current for 2 h. Measurement of the current that results from the repeated oxidation and reduction of pyocyanin at two closely spaced electrodes inside the device nanochannel yielded a 1.07 μM limit of detection without electrical isolation of the electrochemical cell. Since a reference electrode is integrated inside the nanofluidic channel of these sensors, they ...