E. Zilkha et al., EXTRACELLULAR GLUTAMATE - ONLINE MONITORING USING MICRODIALYSIS COUPLED TO ENZYME-AMPEROMETRIC ANALYSIS, Journal of neuroscience methods, 60(1-2), 1995, pp. 1-9
An enzyme-amperometric detector cell is described for flow analysis of
glutamate in dialysate emerging from an implanted microdialysis probe
. Its small size allows it to be placed within a few centimetres of th
e animal preparation, reducing the delay for data acquisition to aroun
d 2 min. The selectivity is provided by glutamate oxidase, immobilised
with glutaraldehyde on surfaces adjacent to the 3-electrode system. A
film of 1,2-diaminobenzene, electropolymerized on the platinum workin
g electrode, eliminates interference from ascorbic acid and other endo
genous electroactive compounds. The high sensitivity(< 0.5 mu mol/l) a
nd fast response time of the cell (90% of maximum response in 30 s) ma
ke it particularly suitable for investigating conditions that produce
rapid changes in brain extracellular glutamate. This is illustrated by
monitoring changes in extracellular glutamate subsequent to cardiac a
rrest, and K+-induced local depolarization.