Litcius/Paper detail

A point-of-care, label-free OECT sensor for uric acid detection: Validation in human saliva

Francesca Ceccardi, Federica Mariani, Francesco Decataldo, Vito Vurro, Marta Tessarolo, Isacco Gualandi, Beatrice Fraboni, Erika Scavetta

2025Electrochimica Acta17 citationsDOIOpen Access PDF

Abstract

• Development of a novel label-free PEDOT:PSS sensor for uric acid in human saliva. • Use of potentiodynamic detection to enhance accuracy. • Validation in real saliva with an independent method, ensuring high reliability. • Simplified design allows rapid measurements, compatible with POC platforms. • Integration with portable electronics with Bluetooth data transmission. This study presents the development of an organic electrochemical transistor (OECT) sensor for the detection of uric acid (UA) in human saliva, employing a potentiodynamic measurement technique. Unlike many existing (bio)sensors, this device is entirely based on the organic semiconductor poly(3,4-ethylenedioxythiophene):polystyrene sulfonate (PEDOT:PSS), which simplifies manufacturing and maintenance and reduces production costs. First of all, a systematic comparison between the potentiostatic and potentiodynamic sensing performance in buffer solution is presented, which proves the superior accuracy (14 %), repeatability (5 %), and reproducibility (8 %) of the potentiodynamic approach. In particular, a sensitivity of 59 µS dec −1 is obtained in the concentration range 10 – 350 µM UA, with a detection limit of 1 µM. Selectivity studies and subsequent validation of the potentiodynamic OECT sensor in human saliva with an independent method specific for salivary UA quantification is then presented, after which we show the application of our sensor to salivary UA monitoring during food intake, as well as the attempt to analyze swine saliva. Furthermore, as the sensor's design supports integration with point-of-care platforms, we demonstrate its functionality with portable electronics and smartphone connectivity. This approach enables rapid, real-time monitoring, offering a practical and cost-effective solution for non-invasive UA detection in clinical settings.

Topics & Concepts

SalivaUric acidPoint of careChemistryMedicineChromatographyBiochemistryPathologySalivary Gland Disorders and FunctionsAdvanced Chemical Sensor TechnologiesSulfur Compounds in Biology