par Kauffmann, Jean-Michel 
;Pelki-Marta, M.;Nagy, A.
Référence Acta Pharmaceutica Hungarica, 66, 3, page (57-64)
Publication Publié, 1996
;Pelki-Marta, M.;Nagy, A.Référence Acta Pharmaceutica Hungarica, 66, 3, page (57-64)
Publication Publié, 1996
Article révisé par les pairs
| Résumé : | With the considerable progresses observed in analytical instrumentation, it was of interest to survey recent trends in the field of electroanalysis of drugs. Potentiometric, voltammetric and amperometric techniques were scrutinized both in terms of historical evolution and in terms of potentialities with respect to the analysis of drugs in various matrices. With regard to the former, it appeared that numerous original selective electrodes (for drugs and ions) have been studied and several ion-selective electrodes have been successfully commercialized. Improvements are still expected in this field in order to find more robust membrane matrices and to minimize the surface fouling. Electrochemistry is well suited for trace metal analysis. A renewed interest in potentiometric stripping analysis is observed and is stimulated by the power of computers and microprocessors which allow rapid signal recording and data handling. Polarography and its refinements (Pulsed Waveform, Automation,...) is ideally applied for trace metal analysis and speciation. The technique is still useful in the analysis of drug formulations and in biological samples provided that the method is adequately validated (selectivity!). The same holds for solid electrodes which are currently routinely applied as sensitive detectors after chromatographic separation. New instrumentation is soon expected as regard electrochemical detection in capillary electrophoresis. Actually, in order to increase the responses and improve the selectivity, solid electrodes are facing exponential research dedicated to surface modifications. Perm-selectivity, chelations catalysis, etc. may be considered as appropriate strategies. Microelectrodes and screen printed (disposable) sensors are of considerable interest in cell culture e.g. for single cell excretion analysis and in field (decentralized) assays, respectively. Finally several biosensors and electrochemical immunoassays have been successfully development for the selective and sensitive analysis of drugs. |
