In Vivo Performance Evaluation of a Transdermal Near- Infrared Fluorescence Resonance Energy Transfer Affinity Sensor for Continuous Glucose Monitoring

The in vivo performance of a transdermal near-infrared fluorescence resonance energy transfer (FRET) affinity sensor was investigated in hairless rats, in order to validate its feasibility for glucose monitoring in humans. The sensor itself consists of a small hollow fiber implanted in dermal skin tissue, containing glucose-sensitive assay chemistry composed of agarose-immobilized Concanavalin A (ConA) and free dextran. The glucose-dependent fluorescence change is based on FRET between near-infrared-compatible donor and quencher dyes that are chemically linked to dextran and ConA, respectively. We conducted an acute in vivo evaluation of transdermal sensors with an optical fiber-coupled setup over 4 h, and a chronic in vivo evaluation of fully implanted sensors for up to 16 days. The fiber-coupled sensors followed trends of blood glucose concentrations very well with a delay of less than 5 min. The acute performance of the implanted sensors at the day of implantation was similar to that of the fiber-coupl...