[Arkhypova VN, Dzyadevych SV, Soldatkin AP, Elskaya AV, Jaffrezic-Renault N, Jaffrezic H, Martelet C. (2001). Multibiosensor based on enzyme inhibition analysis for determination of different toxic substances. Talanta 55: 919-927.]Search in Google Scholar
[Barthold CL, and Schier JG. (2005). Organic phosphorus compounds - nerve agents. Crit Care Clin 21: 673-689.]Search in Google Scholar
[Brecht A, and Gauglitz G. (1995). Optical probes and transducers. Biosens Bioelectron 10: 923-936.]Search in Google Scholar
[Buratti FM, D'Aniello A, Volpe MT, Menequz A, and Testai E. (2005). Malathion bioactivation in the human liver: the contribution of different cytochrome p450 isoforms. Drug Metab Dispos 33: 295-302.]Search in Google Scholar
[Campanella L, Lelo D, Martini E, and Tomassetti M. (2007). Organophosphorus and carbamete pesticide analysis using an inhibition tyrosinase organic phase enzyme sensor; comparison by butyrylcholinesterase + choline oxidase opee and application to natural waters. Anal Chim Acta 587: 22-32.]Search in Google Scholar
[Cometa MF, Lorenzini P, Fortuna S, Volpe MT, Meneguz A, and Palmery M. (2005). In vitro inhibitory effect of aflatoxin B1 on acetylcholinesterase activity in mouse brain. Toxicology 206: 125-135.]Search in Google Scholar
[Del Carlo M, Pepe A, Mascini M, De Gregorio M, Visconti A, Compagnone D. (2005). Determinating pirimiphos-methyl in durum wheat samples using an acetylcholinesterase inhibition assay. Anal Bioanal Chem 381: 1367-1372.]Search in Google Scholar
[Eddieston M, Buckley NA, Eyer P, and Dawson AH. (2008). Medical management of acute organophosphorus pesticide self-poisoning. Lancet 371: 597-607.]Search in Google Scholar
[Egbunike GN, and Ikegwuonu FI. (1984). Effect of aflatoxicosis on acetylcholinesterase activity in the brain and adenohypophysis of the male rat. Neurosci Lett 52: 171-174.]Search in Google Scholar
[Ghindilis AL, Atanasov P, Wilkins M, and Wilkins E. (1998). Immunosenors: electrochemical sensing and other engineering approaches. Biosens Bioelectron 13: 113-131.]Search in Google Scholar
[Kandimalla, V. B., and Ju, H. (2006). Binding of acetylcholinesterase to multiwall carbon nanotube-cross-linked chitosan composite for flow-injection amperometric detection of an organophosphorous insecticide. Chemistry 12: 1074-1080.]Search in Google Scholar
[Lopez S, Bastida J, Viladomat F, and Codina C. (2002). Acetylcholinesterase inhibitory activity of some Amaryllidaceae alkaloids and Narcissus extracts. Life Sci Narcissus 71: 2521-2529.]Search in Google Scholar
[Marrs TC. (1993). Organophosphate poisoning. Pharmacol Ther 58: 51-66.]Search in Google Scholar
[Musial A, Bajda M, and Malawska B. (2007). Recent developments in cholinesterases inhibitors for Alzheimer's disease treatment. Curr Med Chem 14: 2654-2679.]Search in Google Scholar
[Pavlov VA, Wang H, Czura CJ, Friedman SG, and Tracey KJ. (2003). The cholinergic anti-inflammatory pathway: a missing link in neuroimmunomodulation. Mol Med 9: 125 - 134.]Search in Google Scholar
[Pijanowska DG, Sprenkels AJ, Olthuis W, and Bergveld P. (2003). A flow-through amperometric sensor for micro-analytical systems. Sens Actuat B 91: 98-102.]Search in Google Scholar
[Pohanka M, Jun D, Kalasz H, and Kuca K. (2008b). Cholinesterase biosensor construction - a review. Prot Pept Lett 15: 795-798.10.2174/09298660878520366518855751]Search in Google Scholar
[Pohanka M, Kuca K, and Kassa J. (2008a). New performance of biosensor technology for Alzheimer's disease drugs: in vitro comparison of tacrine and 7-methoxytacrine. Neuroendocrinol Lett 29: 755-758.]Search in Google Scholar
[Pohanka M, Musilek K, and Kuca K. (2009a). Progress of biosensors based on cholinesterase inhibition. Curr Med Chem 16: 1790-1798.10.2174/09298670978818612919442145]Search in Google Scholar
[Pohanka M, Dobes P, Drtinova L, and Kuca K. (2009b). Nerve agents assay using cholinesterase based biosensor. Electroanalysis DOI: 10.1002/elan.200804528.10.1002/elan.200804528]Search in Google Scholar
[Pohanka M, Jun D, and Kuca K. (2008c). Amperometric biosensor for real time assay of organophosphates. Sensors 8: 5303-5312.10.3390/s8095303370550527873815]Search in Google Scholar
[Pohanka M, Kuca K, and Kassa J. (2008d). New performance of biosensor technology for Alzheimer's disease drugs: in vitro comparison of tacrine and 7-methoxytacrine. Neuroendocrinol Lett 29: 755-758.]Search in Google Scholar
[Pohanka M, Kuca K, and Jun D. (2008e). Aflatoxin assay using an amperometric sensor strip and acetylcholinesterase as recognition element. Sens Lett 6: 450-453.10.1166/sl.2008.062]Search in Google Scholar
[Soreq H, and Seidman S. (2001). Acetylcholinesterase - new role for an old actor. Natur Rev 2: 294 - 302.]Search in Google Scholar
[Valdes-Ramirez G, Fournier D, Ramirez-Silva MT, and Marty JL. (2008). Sensitive amperometric biosensor for dichlorvos quantification: application to detection of residues on apple skin. Talanta 74: 741-746.]Search in Google Scholar
[Yoshinobu T, Schoning MJ, Finger F, Moritz W, and Iwasaki H. (2004). Fabrication of thin film LAPS with amorphous silicon. Sensors 4: 163-169.]Search in Google Scholar
