(Invited) Extending the Stability of Electrochemical, Aptamer-Based Sensors In Vivo

摘要

Electrochemical aptamer-based (E-AB) sensors are a technology that enables precise measurements of specific molecular targets in the body. They have been demonstrated to support real-time therapeutic drug monitoring and feedback-controlled drug dosing in living animals. However, one drawback of E-AB sensors is the rapid degradation of their sensing interface upon continuous interrogation via, for example, voltammetry. Over time, the faradaic current from their aptamer-attached redox reporter decreases, and the currents from charging the electrical double-layer increase beyond the faradaic current, thus preventing signaling. The latter effect is due to progressive desorption of the electrode-passivating alkyl thiol monolayers employed in these sensors. This progressive degradation limits their in-vivo operational life to hours, a period too short for monitoring the vast majority of drugs in humans. Attempting to address this problem, my laboratory is investigating novel monolayer chemistries that extend the operational life of E-AB sensors without compromising their sensing performance or biocompatibility. In this presentation, I will discuss the effects that different monolayer chemistries have on E-AB sensing performance and how they extend the in-vitro operational life of E-AB sensors for days in undiluted biological fluids.