A renewable-reagent how probe has been developed for the remote electrochem
ical biosensing of enzyme inhibitors. The new submersible device addresses
the challenges of continuously replacing the inhibited enzyme and consumed
substrate. The internal delivery of microliter enzyme and substrate solutio
ns is coupled to an in situ microdialysis sampling of the toxin, and an amp
erometric detection of the enzymatically generated product. The new concept
is demonstrated for the detection of micromolar concentrations of free cya
nide in the presence of the enzyme tyrosinase and its catechol substrate. T
he optimization of various physical and chemical parameters has resulted in
a low detection limit of 2 x 10(-6) M cyanide and good precision (RSD = 5%
). The new device holds great promise for in situ environmental and industr
ial monitoring of toxins.