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Stahl SM. Essential Psychopharmacology. Cambridge: Cambridge University Press; 2021.Search in Google Scholar
Stoppe G, Staedt J. Pshychopharmakotherapie von Verhaltenstörungen bei demenzkranken. Z. Gerontol Geriatrics. 1999;32:153-8.Search in Google Scholar
Berk M. Lamotrigine and the treatment of mania in bipolar disorder. Eur Neuropsy-chopharmacol. 1999;4S:119-23.Search in Google Scholar
Valery L, Nichols E, Alam T, Bannick MS, Beghi E, et al. Global, regional, and national burden of neurological disorders, 1990–2016: a systematic analysis for the Global Burden of Disease Study 2016. The Lancet Neurology. 2019;18:359-480.Search in Google Scholar
Maggs JL, Pirmohamed M, Kitteringham NR, Park BK. Characterization of the metabolites of carbamazepine in patient urine by liquid chromatography/mass spectrometry. Drug Metab Dispos. 1997;25:275-80.Search in Google Scholar
Volosov A, Bialer M, Xiaodong S, Perucca E, Sintov A, Yagen B. Simultaneous stereoselective high-performance liquid chromatographic determination of 10-hydroxycarbazepine and its metabolite carbamazepine-10,11-trans-dihydrodiol in human urine. J Chromatogr B. 2000;738:419-25.Search in Google Scholar
Hartter S, Jensen B, Hiemke C, Leal M, Weigmann H, Unger K. Micellar electrokinetic capillary chromatography for therapeutic drug monitoring of carbamazepine and its main metabolites. J Chromatogr B. 1998;712:253-8.Search in Google Scholar
Quinones-Torrelo C, Sagrado-Vives S, Villaneva-Camanas RM, Medina-Hernandez MJ. An LD50 model for predicting psychotropic drug toxicity using biopartitioning micellar chromatography. Biomed Chomatogr. 2001;15:31-40.Search in Google Scholar
Jenkins AJ, Sarconi KM, Raaf HN. Determination of olanzapine in a postmortem case. J Anal Toxicol.1998;22:605-9.Search in Google Scholar
Raggi MA, Casamenti G, Mandrioli R, Fanali S, Deronchi D, Volterra,V. Determination of the novel antipsychotic drug olanzapine in human plasma using HPLC with amperometric detection. Chromatographia. 2000;51:562-6.Search in Google Scholar
Olsen OV, Linnett K. Determination of olanzapine in serum by high-performance liquid chromatography using ultraviolet detection considering the easy oxidability of the compound and the presence of other psychotropic drugs. J Chromatogr B. 1998;714:309-15.Search in Google Scholar
Su H-L, Hseh Y-Z. Using cation-selective exhaustive injection and sweeping micellar electrokinetic chromatography to determine selective serotonin reuptake inhibitors. J Chromatogr A. 2008;1209:253-9.Search in Google Scholar
Valenzuela MIA, Diaz NM, Rodriguez AS. Determination of tricyclic antidepressants in human breast milk by capillary electrophoresis. Anal Sci. 2010;26:699-702.Search in Google Scholar
Alatawi H, Hogan A, Albalawi I, Alsefria S, Moore E. Efficient determination of non-steroidal anti-inflammatory drugs by micellar electrokinetic chromatography in wastewater. Anal Methods. 2023;15:1402-9.Search in Google Scholar
Ganan J, Morante-Zarcero S, Sierra I. Inf luence of organic modifier additives to separate steroids by micellar electrokinetic chromatography: determination of solute-micelle association constants at different acetonitrile concentrations. Analytical Letters. 2014;47:1513-27.Search in Google Scholar
Chen M, Chang R, Xu L, Huang Y, Zhang H, Chen A. Simultaneous separation and determination of praeruptorin A, B and C by micellar electrokinetic chromatography using sodium dodecyl sulphate and sodium cholate as mixed micelles. Phytochemical Analysis. 2018;29:425-31.Search in Google Scholar
Yardimci C, Suslu I, Ozaltin N. Determination of piribedil in pharmaceutical formulations by micellar electrokinetic capillary chromatography. Anal Bioanal Chem. 2004;379:308-11.Search in Google Scholar
Nowak PM, Woźniakiewicz M, Gładysz M, Janus M, Kościelniak P. Improving repeatability of capillary electrophoresis – a critical comparison of ten different capillary inner surfaces and three criteria of peak identification. Anal Bioanal Chem. 2017;409:4383-93.Search in Google Scholar
Traczuk A, Jaglińska K, Polak B. Unpublished results from chromatographic experiments.Search in Google Scholar
Quirino JP. Two-step stacking in capillary zone electrophoresis featuring sweeping and micelle to solvent stacking: I. Organic cations. J Chromatogr A. 2010;1217:7776-80.Search in Google Scholar
Quirino JP, Aranas AT. Micelle to solvent stacking of organic cations in micellar electrokinetic stacking of organic cations in micellar electrokinetic chromatography with sodium dodecylsulphate. J Chromatogr A. 2011;1218:7377-83.Search in Google Scholar
Dziomba Sz, Kowalski P, Bączek T. Micelle to solvent stacking of tricyclic psychiatric drugs in capillary electrophoresis. J Pharm Biomed Anal. 2012;62:149-54.Search in Google Scholar
Hancu G, Simon B, Rusu A, Mircia E, Gyéresi Á. Principles of the micellar electrokinetic capillary electrochromatography applied in pharmaceutical analysis. Adv Pharm Bull. 2013;3:1-8.Search in Google Scholar
Zana R. Aqueous surfactant-alcohol systems: a review. Adv Colloid Interface Sci. 1995;57:1-64.Search in Google Scholar
Issaq HJ, Atamna IZ, Muschik GM, Janini GM. The effect of the electric field buffer type and concentration on separation parameters in capillary zone electrophoresis. Chromatographia. 1991;32:155-61.Search in Google Scholar
Agilent Technologies. High performance capillary electrophoresis. Second completely revised edition. Publication number 5990-3777EN.Search in Google Scholar
Maryutina TA, Savonina EY, Fedotov PS, Smith RM, Siren H, Hibbert DB. Terminology of separation methods (IUPAC recommendation 2017). Pure and Applied Chemistry. 2017.Search in Google Scholar