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Journal Abstract Search

117 related items for PubMed ID: 11516893

  • 1. HPLC of basic drugs on microparticulate strong cation-exchange materials - a review.
    Flanagan RJ, Harvey EJ, Spencer EP.
    Forensic Sci Int; 2001 Sep 15; 121(1-2):97-102. PubMed ID: 11516893
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  • 2. High-performance liquid chromatographic analysis of basic drugs on silica columns using non-aqueous ionic eluents. I. Factors influencing retention, peak shape and detector response.
    Flanagan RJ, Jane I.
    J Chromatogr; 1985 Apr 26; 323(2):173-89. PubMed ID: 2987280
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  • 3. Characterization of a microparticulate strong anion-exchanger in the HPLC of acidic drugs.
    Morgan PE, Hanna-Brown M, Flanagan RJ.
    Biomed Chromatogr; 2006 Aug 26; 20(8):765-73. PubMed ID: 16292744
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  • 4. High perfomance liquid chromatography in pharmaceutical analyses.
    Nikolin B, Imamović B, Medanhodzić-Vuk S, Sober M.
    Bosn J Basic Med Sci; 2004 May 26; 4(2):5-9. PubMed ID: 15629016
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  • 6. High-pressure liquid chromatography of drugs. II. An evaluation of a microparticulate cation-exchange column.
    Twitchett PJ, Gorvin AE, Moffat AC.
    J Chromatogr; 1976 May 26; 120(2):359-68. PubMed ID: 5461
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  • 10. Strong cation exchange column allow for symmetrical peak shape and increased sample loading in the separation of basic compounds.
    Long Z, Wang C, Guo Z, Zhang X, Nordahl L, Liang X.
    J Chromatogr A; 2012 Sep 21; 1256():67-71. PubMed ID: 22885038
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  • 11. Basic drug analysis by strong cation-exchange liquid chromatography-tandem mass spectrometry: simultaneous analysis of amisulpride, and of metamfetamine and amfetamine in serum/plasma.
    Couchman L, Morgan PE, Flanagan RJ.
    Biomed Chromatogr; 2011 Aug 21; 25(8):867-72. PubMed ID: 21058410
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  • 12. A study of retention and overloading of basic compounds with mixed-mode reversed-phase/cation-exchange columns in high performance liquid chromatography.
    Davies NH, Euerby MR, McCalley DV.
    J Chromatogr A; 2007 Jan 05; 1138(1-2):65-72. PubMed ID: 17083946
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  • 13. Screening of the most relevant parameters for method development in ultra-high performance hydrophilic interaction chromatography.
    Periat A, Debrus B, Rudaz S, Guillarme D.
    J Chromatogr A; 2013 Mar 22; 1282():72-83. PubMed ID: 23411147
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  • 15. Retention pattern profiling of fungal metabolites on mixed-mode reversed-phase/weak anion exchange stationary phases in comparison to reversed-phase and weak anion exchange separation materials by liquid chromatography-electrospray ionisation-tandem mass spectrometry.
    Apfelthaler E, Bicker W, Lämmerhofer M, Sulyok M, Krska R, Lindner W, Schuhmacher R.
    J Chromatogr A; 2008 May 16; 1191(1-2):171-81. PubMed ID: 18199445
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  • 17. Retention reproducibility of basic drugs in high-performance liquid chromatography on a silica column with a methanol-ammonium nitrate eluent. Batch-to-batch reproducibility of the stationary phase.
    Smith RM, Hurdley TG, Westlake JP, Gill R, Osselton MD.
    J Chromatogr; 1988 Nov 25; 455():77-93. PubMed ID: 3235625
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  • 18. Comparison of the chromatography of octadecyl silane bonded silica and polybutadiene-coated zirconia phases based on a diverse set of cationic drugs.
    Dai J, Yang X, Carr PW.
    J Chromatogr A; 2003 Jul 11; 1005(1-2):63-82. PubMed ID: 12924783
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  • 19. Prediction of the effects of methanol and competing ion concentration on retention in the ion chromatographic separation of anionic and cationic pharmaceutically related compounds.
    Zakaria P, Dicinoski G, Hanna-Brown M, Haddad PR.
    J Chromatogr A; 2010 Sep 24; 1217(39):6069-76. PubMed ID: 20732686
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  • 20. Separation of acidic compounds by strong anion-exchange capillary electrochromatography.
    Ye M, Zou H, Liu Z, Ni J.
    J Chromatogr A; 2000 Jul 28; 887(1-2):223-31. PubMed ID: 10961314
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