posted on 2020-07-13, 15:35authored byClaudio Parolo, Andrea Idili, Gabriel Ortega, Andrew Csordas, Alex Hsu, Netzahualcóyotl Arroyo-Currás, Qin Yang, Brian Scott Ferguson, Jinpeng Wang, Kevin W. Plaxco
The ability to monitor
protein biomarkers continuously and in real-time
would significantly advance the precision of medicine. Current protein-detection
techniques, however, including ELISA and lateral flow assays, provide
only time-delayed, single-time-point measurements, limiting their
ability to guide prompt responses to rapidly evolving, life-threatening
conditions. In response, here we present an electrochemical aptamer-based
sensor (EAB) that supports high-frequency, real-time biomarker measurements.
Specifically, we have developed an electrochemical, aptamer-based
(EAB) sensor against Neutrophil Gelatinase-Associated Lipocalin (NGAL),
a protein that, if present in urine at levels above a threshold value,
is indicative of acute renal/kidney injury (AKI). When deployed inside
a urinary catheter, the resulting reagentless, wash-free sensor supports
real-time, high-frequency monitoring of clinically relevant NGAL concentrations
over the course of hours. By providing an “early warning system”,
the ability to measure levels of diagnostically relevant proteins
such as NGAL in real-time could fundamentally change how we detect,
monitor, and treat many important diseases.