Literature Survey

Review Articles on Analysis, 2000 to 2009

The following references to review articles dealing with lipid analytical methodology were collected as part of our regular literature surveys for our own research purposes, and therefore reflect our personal research interests. However, most mainstream lipid topics are covered. Exceptions include "steroidal hormones" and "terpenes". We cannot claim to cover the subject exhaustively, but we do our best, looking for papers that exhibit novel analytical methodology especially.  References are listed alphabetically by the first author, but not necessarily chronologically by that author.

  • Abidi,S.L. Chromatographic analysis of tocol-derived lipid antioxidants J. Chromatogr. A, 881, 197-216 (2000).
  • Abidi,S.L. Chromatographic analysis of plant sterols in foods and vegetable oils. J. Chromatogr. A, 935, 173-201 (2001).
  • Ackman,R.G. The gas chromatograph in practical analyses of common and uncommon fatty acids for the 21st century. Anal. Chim. Acta, 465, 175-192 (2002).
  • Acquotti,D. and Sonnino,S. Use of nuclear magnetic resonance spectroscopy in evaluation of ganglioside structure, conformation, and dynamics. Methods Enzymol. Sphingolipid Metabolism and Cell Signaling, Part B, 312, 247-272 (2000).
  • Adibhatla,R.M., Hatcher,J.F. and Dempsey,R.J. Lipids and lipidomics in brain injury and diseases. AAPS J., 8, E314-E321 (2006).
  • Adlof,R.O. Application of silver ion chromatography to the separation of conjugated linoleic acid isomers. In: Advances in Conjugated Linoleic Acid Research, Volume 2., pp. 37-55 (edited by J.L. Sebedio, W.W. Christie & R.O. Adlof, AOCS Press, Champaign, IL.) (2003).
  • Adlof,R.O. Separation of conjugated linoleic acid-containing mono-, di-and triacylglycerols by silver-ion high-performance liquid chromatography. Eur. J. Lipid Sci. Technol., 103, 614-617 (2001).
  • Adlof,R.O. Recent advances in silver-ion HPLC utilizing acetonitrile in hexane as solvent: temperature effects on lipid elution orders/resolution. In: Lipid Analysis and Lipidomics: New Techniques and Applications. pp. 175-190 (ed: M.M. Mossoba, J.K.G. Kramer, J.T. Brenna and R.E. McDonald, AOCS Press, Champaign, USA) (2006).
  • Albert,C.J., Anbukumar,D.S., Monda,J.K., Eckelkamp,J.T. and Ford,D.A. Myocardial lipidomics. Developments in myocardial nuclear lipidomics. Frontiers Biosci., 12, 2750-2760 (2007).
  • Alexander,C. and Zahringer,U. Chemical structure of lipid A - The primary immunomodulatory center of bacterial lipopolysaccharides. Trends Glycosci. Glycotechnol., 14, 69-86 (2002).
  • Amet,Y., Adas,F. and Berthou,F. High performance liquid chromatography of fatty acid metabolites: Improvement of sensitivity by radiometric, fluorimetric and mass spectrometric methods. Anal. Chim. Acta, 465, 193-198 (2002).
  • Andersen,M.L. and Skibsted,L.H. Detection of early events in lipid oxidation by electron spin resonance spectroscopy. Eur. J. Lipid Sci. Technol., 104, 65-68 (2002).
  • Andrikopoulos,N.K. Triglyceride species compositions of common edible vegetable oils and methods used for their identification and quantification. Food Rev. Int., 18, 71-102 (2002).
  • Andrikopoulos,N.K. Chromatographic and spectroscopic methods in the analysis of triacylglycerol species and regiospecific isomers of oils and fats. Crit. Rev. Food Sci. Nutr., 42, 473-505 (2002).
  • Angioni,E., Lercker,G. , Frega,N.G., Carta,G., Melis,M.P., Murru,E., Spada,S. and Banni,S. UV spectral properties of lipids as a tool for their identification. Eur. J. Lipid Sci. Technol., 104, 59-64 (2002).
  • Aparicio,R. and Aparicio-Ruiz,R. Authentication of vegetable oils by chromatographic techniques J. Chromatogr. A, 881, 93-104 (2000).
  • Arneson,K.O. and Roberts,L.J. Measurement of products of docosahexaenoic acid peroxidation, neuroprostanes, and neurofurans. Methods Enzymol., 433, 127-143 (2007).
  • Astarita,G. and Piomelli,D. Lipidomic analysis of endocannabinoid metabolism in biological samples. J. Chromatogr. B, 877, 2755-2767 (2009).
  • Aust,O., Sies,H., Stahl,W. and Polidori,M.C. Analysis of lipophilic antioxidants in human serum and tissues: tocopherols and carotenoids. J. Chromatogr. A, 936, 83-93 (2001).
  • Ayorinde,F.O. Determination of the molecular distribution of triacylglycerol oils using matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. Lipid Technology, 12, 41-44 (2000).
  • Baeten,V. and Dardenne,P. Spectroscopy: Developments in instrumentation and analysis. Grasas Aceites, 53, 45-63 (2002).
  • Balazy,M. Eicosanomics: targeted lipidomics of eicosanoids in biological systems. Prostaglandins Other Lipid Mediators, 73, 173-180 (2004).
  • Baldwin,M.A. Analysis of glycosylphosphatidylinositol protein anchors: The prion protein. Methods In Enzymology, 405, 172-187 (2005).
  • Berdeaux,O., Dutta,P., Dobarganes,M. and Sebedio,J.L. Analytical methods for quantification of modified fatty acids and sterols formed as a result of processing. Food Anal. Methods, 2, 30-40 (2009).
  • Berdeaux,O., Scruel,O., Durand,T. and Cracowski,J.L. Isoprostanes, biomarkers of lipid peroxidation in humans. Part 2: Quantification methods. Pathologie Biologie, 53, 356-363 (2005).
  • Berdeaux,O., Scruel,O., Cracowski,J.L. and Durand,T. F-2-isoprostanes: Review of analytical methods. Curr. Pharm. Anal., 2, 69-78 (2006).
  • Berrie,C.P., Iurisci,C., Piccolo,E., Bagnati,R. and Corda,D. Analysis of phosphoinositides and their aqueous metabolites. Methods Enzymol., 434, 187-232 (2007).
  • Bielawski,J., Szulc,Z.M., Hannun,Y.A. and Bielawska,A. Simultaneous quantitative analysis of bioactive sphingolipids by high-performance liquid chromatography-tandem mass spectrometry. Methods, 39, 82-91 (2006).
  • Bisogno,T., Piscitelli,F. and Di Marzo,V. Lipidomic methodologies applicable to the study of endocannabinoids and related compounds: Endocannabinoidomics. Eur. J. Lipid Sci. Technol., 111, 53-63 (2009).
  • Bleijerveld,O.B., Houweling,M., Thomas,M.J. and Cui,Z. Metabolipidomics: Profiling metabolism of glycerophospholipid species by stable isotopic precursors and tandem mass spectrometry. Anal. Biochem., 352, 1-14 (2006).
  • Blomberg,J., Schoenmakers,P.J. and Brinkman,U.A.Th. Gas chromatographic methods for oil analysis. J. Chromatogr. A, 972, 137-173 (2002).
  • Bodennec,J., Brichon,G., Zwingelstein,G. and Portoukalian,J. Purification of sphingolipid classes by solid-phase extraction with aminopropyl and weak cation exchanger cartridges. Methods Enzymol. Sphingolipid Metabolism and Cell Signaling, Part B, 312, 101-114 (2000).
  • Bodin,K. and Diczfalusy,U. Analysis of cholesterol oxidation products in plasma, tissues and food. Eur. J. Lipid Sci. Technol., 104, 435-439 (2002).
  • Brondz,I. Development of fatty acid analysis by high-performance liquid chromatography, gas chromatography, and related techniques. Anal. Chim. Acta, 465, 1-37 (2002).
  • Buchgraber,M., Ulberth,F., Emons,H. and Anklam,E. Triacylglycerol profiling by using chromatographic techniques. Eur. J. Lipid Sci. Technol., 106, 621-648 (2004).
  • Budge,S.M., Iverson,S.J. and Koopman,H.N. Studying trophic ecology in marine ecosystems using fatty acids: A primer on analysis and interpretation. Marine Mammal Sci., 22, 759-801 (2006).
  • Butler,W.R. and Guthertz,L.S. Mycolic acid analysis by high-performance liquid chromatography for identification of Mycobacterium species. Clin. Microbiol. Rev., 14, 704-726 (2001).
  • Butovich,I.A. The Meibomian puzzle: Combining pieces together. Progr. Retinal Eye Res., 28, 483-498 (2009).
  • Byrdwell,W.C. APCI-MS in lipid analysis. In: Advances in Lipid Methodology - Five, pp. 171-253 (ed. R.O. Adlof, Oily Press, Bridgwater) (2003).
  • Byrdwell,W.C. Atmospheric pressure ionization techniques in modern lipid analysis. In 'Modern Methods for Lipid Analysis by Liquid Chromatography/Mass Spectrometry and Related Techniques' (Ed. W.C. Byrdwell, AOCS Press, Champaign), pp. 1-18 (2005).
  • Byrdwell,W.C. Atmospheric pressure chemical ionization mass spectrometry for analysis of lipids. Lipids, 36, 327-346 (2001).
  • Byrdwell,W.C. Qualitative and quantitative analysis of triacylglycerols by atmospheric pressure ionization (APCI and ESI) mass spectrometry techniques. In 'Modern Methods for Lipid Analysis by Liquid Chromatography/Mass Spectrometry and Related Techniques' (Ed. W.C. Byrdwell, AOCS Press, Champaign), pp. 298-412 (2005).
  • Byrdwell,W.C. Dual parallel liquid chromatography/mass spectrometry for lipid analysis. In 'Modern Methods for Lipid Analysis by Liquid Chromatography/Mass Spectrometry and Related Techniques' (Ed. W.C. Byrdwell, AOCS Press, Champaign), pp. 510-576 (2005).
  • Byrdwell,W.C. Dual parallel liquid chromatography with dual mass spectrometry (LC2/MS2) for a total lipid analysis. Frontiers Biosci., 13, 100-120 (2008).
  • Carpenter,K.H. and Wiley,V. Application of tandem mass spectrometry to biochemical genetics and newborn screening. Clin. Chim. Acta, 322, 1-10 (2002).
  • Carrapiso,A.I. and Garcia,C. Development in lipid analysis: Some new extraction techniques and in situ transesterification. Lipids, 35, 1167-1177 (2000).
  • Carrasco-Pancorbo,A., Navas-Iglesias,N. and Cuadros-Rodriguez,L. From lipid analysis towards lipidomics, a new challenge for the analytical chemistry of the 21st century. Part 1: Modern lipid analysis. Trends Anal. Chem., 28, 263-278 (2009).
  • Cert,A., Moreda,W. and Perez-Camino,M.C. Chromatographic analysis of minor constituents in vegetable oils. J. Chromatogr. A, 881, 131-148 (2000).
  • Chace,D.H. and Kalas,T.A. A biochemical perspective on the use of tandem mass spectrometry for newborn screening and clinical testing. Clin. Biochem., 38, 296-309 (2005).
  • Challinor,J.M. Review: the development and applications of thermally assisted hydrolysis and methylation reactions. J. Anal. Appl. Pyrol., 61, 3-34 (2001).
  • Chen,S.-H. and Chuang,Y.-J. Analysis of fatty acids by column liquid chromatography. Anal. Chim. Acta, 465, 145-155 (2002).
  • Cheng,C.F. and Gross,M.L. Applications and mechanisms of charge-remote fragmentation. Mass Spectrom. Rev., 19, 398-420 (2000).
  • Chernushevich,I.V., Loboda, A.V. and Thomson,B.A. An introduction to quadrupole/time-of-flight mass spectrometry J. Mass Spectrom., 36, 849-865 (2001).
  • Christie,W.W. Lipidomics - A personal view. Lipid Technology, 21, 58-60 (2009).
  • Christie,W.W. The chromatographic analysis of lipids. In: 'The Lipid Handbook - 3rd edition', pp. 426-455 (edited by F.D. Gunstone, J.L. Harwood and A. Dijkstra, Chapman & Hall, London) (2007).
  • Christie,W.W. Analysis of conjugated linoleic acid - an overview. In: Advances in Conjugated Linoleic Acid Research, Volume 2., pp. 1-12 (edited by J.L. Sebedio, W.W. Christie & R.O. Adlof, AOCS Press, Champaign, IL.) (2003).
  • Christie,W.W., Dobson,G. and Adlof,R.O. A practical guide to the isolation, analysis and identification of conjugated linoleic acid. Lipids, 42, 1073-1084 (2007).
  • Christie,W.W., S?b?dio,J.L. and Juan?da,P. A practical guide to the analysis of conjugated linoleic acid (CLA). INFORM, 12, 147-152 (2001).
  • Christophe,A. Fatty acid profiling in lipid disorders. In: Advances in Lipid Methodology - Five, pp. 255-272 (ed. R.O. Adlof, Oily Press, Bridgwater) (2003).
  • Cremesti,A.E. and Fischl,A.S. Current methods for the identification and quantitation of ceramides: an overview. Lipids, 35, 937-945 (2000).
  • Cruz-Hernandez,C. and Destaillats,F. Recent advances in fast gas-chromatography: application to the separation of fatty acid methyl esters. J. Liqu. Chromatogr. Rel. Technol., 32, 1672-1688 (2009).
  • Cruz-Hernandez,C., Deng,Z.Y., Zhou,J.Q., Hill,A.R., Yurawecz,M.P., Delmonte,P., Mossoba,M.M., Dugan,M.E.R. and Kramer,J.K.G. Methods for analysis of conjugated linoleic acids and trans-18:1 isomers in dairy fats by using a combination of gas chromatography, silver-ion thin-layer chromatography/gas chromatography, and silver-ion liquid chromatography. J. Ass. Off. Anal. Chem. Int., 87, 545-562 (2004).
  • Cserhati,T., Forgacs,E., Deyl,Z. and Miksik,I. Chromatography in authenticity and traceability tests of vegetable oils and dairy products: a review. Biomed. Chromatogr., 19, 183-190 (2005).
  • Cui,Z. and Thomas,M.J. Phospholipid profiling by tandem mass spectrometry. J. Chromatogr. B, 877, 2709-2715 (2009).
  • Cunnane,S.C. Application of new methods and analytical approaches to research on polyunsaturated fatty acid homeostasis. Lipids, 36, 975-979 (2001).
  • da Costa,M.S., Nobre,M.F. and Wait,R. Analysis of lipids from extremophilic bacteria. Extremophiles Meth. Microbiol., 35, 127-159 (2006).
  • Dastgheib,S., Basu,S.S., Li,Z.X., Basu,M. and Basu,S. Analyses of glycosphingolipids using clam, Mercenaria mercenaria, ceramide glycanase. Methods Enzymol. Sphingolipid Metabolism and Cell Signaling, Part B, 312, 196-205 (2000).
  • Daun,J.K. and Cantrill,R. Process for development of standard methods for the analysis of fats, oils and lipids. In: Advances in Lipid Methodology - Five, pp. 273-299 (ed. R.O. Adlof, Oily Press, Bridgwater) (2003).
  • Davies,S.D. Lipidomic approaches to measuring isoprostanes and other markers of oxidative stress. Eur. J. Lipid Sci. Technol., 111, 64-74 (2009).
  • de la Fuente,M.A., Luna.P. and Juarez,M. Chromatographic techniques to determine conjugated linoleic acid isomers. Trends Anal. Chem., 25, 917-926 (2006).
  • Deems,R., Buczynski,M.W., Bowers-Gentry,R., Harkewicz,R. and Dennis,E.A. Detection and quantitation of eicosanoids via high performance liquid chromatography-electrospray ionization-mass spectrometry. Methods Enzymol., 432, 59-82 (2007).
  • Delgado-Zamarreno,M.M., Bustamante-Rangel,M., Sanchez-Perez,A. and Hernandez-Mendez,J. Analysis of vitamin E isomers in seeds and nuts with and without coupled hydrolysis by liquid chromatography and coulometric detection. J. Chromatogr. A, 935, 77-86 (2001).
  • Delmonte,P., Kia,A.R.F., Hu,Q. and Rader,J.I. Review of methods for preparation and gas chromatographic separation of trans and cis reference fatty acids. J. AOAC Int., 92, 1310-1326 (2009).
  • Dembitsky,V.M. and Srebnik,M. Natural halogenated fatty acids: their analogues and derivatives Prog. Lipid Res., 41, 315-367 (2002).
  • Destaillats,F., Golay,P.-A., Joffre,F., de Wispelaere,M., Hug,B., Giuffrida,., Fauconnot,L. and Dionisi,F. Comparison of available analytical methods to measure trans-octadecenoic acid isomeric profile and content by gas-liquid chromatography in milk fat. J. Chromatogr. A, 1145, 222-228 (2007).
  • Diehl,B.W.K. High resolution NMR spectroscopy. Eur. J. Lipid Sci. Technol., 103, 830-834 (2001).
  • Dinan,L., Harmatha,J. and Lafont,R. Chromatographic procedures for the isolation of plant steroids. J. Chromatogr. A, 935, 105-123 (2001).
  • Dobarganes,M.C. and Velasco J. Analysis of lipid hydroperoxides. Eur. J. Lipid Sci. Technol., 104, 420-428 (2002).
  • Dobson,G. Gas chromatography-mass spectrometry of conjugated linoleic acid and metabolites. In: Advances in Conjugated Linoleic Acid Research, Volume 2., pp. 13-36 (edited by J.L. Sebedio, W.W. Christie & R.O. Adlof, AOCS Press, Champaign, IL.) (2003).
  • Dobson,G. and Christie,W.W. Mass spectrometry of fatty acid derivatives. Eur. J. Lipid Sci. Technol., 104, 36-43 (2002).
  • Dolan,J.W. Temperature selectivity in reversed-phase high performance liquid chromatography. J. Chromatogr. A, 965, 195-205 (2002).
  • Domingues,M.R.M., Reis,A. and Pedro Domingues,P. Mass spectrometry analysis of oxidized phospholipids. Chem. Phys. Lipids, 156, 1-12 (2008).
  • Fahy,E., Cotter,D., Byrnes,R., Sud,M., Maer,A., Li,J., Nadeau,D., Zhau,Y. and Subramaniam,S. Bioinformatics for lipidomics. Methods Enzymol., 432, 247-273 (2007).
  • Fernandis,A.Z. and Wenk,M.R. Lipid-based biomarkers for cancer. J. Chromatogr. B, 877, 2830-2835 (2009).
  • Fuchs,B. and Schiller,J. Application of MALDI-TOF mass spectrometry in lipidomics. Eur. J. Lipid Sci. Technol., 111, 83-98 (2009).
  • Fuchs,B. and Schiller,J. Recent developments of useful MALDI matrices for the mass spectrometric characterization of apolar compounds. Curr. Org. Chem., 13, 1664-1681 (2009).
  • Fuchs,B., Schober,C., Richter,G., Nimptsch,A., Suss,R. and Schiller,J. The reactions between HOCl and differently saturated phospholipids: Physiological relevance, products and methods of evaluation. Mini-Reviews Org. Chem., 5, 254-261 (2008).
  • Garrett,T.A., Guan,Z. and Raetz,C.R.H. Analysis of ubiquinones, dolichols, and dolichol diphosphate-oligosaccharides by liquid chromatography-electrospray ionization-mass spectrometry. Methods Enzymol., 432, 117-143 (2007).
  • German,J.B., Gillies,L.A., Smilowitz,J.T., Zivkovic,A.M. and Watkins,S.M. Lipidomics and lipid profiling in metabolomics. Current Opinion Lipidology, 18, 66-71 (2007).
  • Gilabert,M. and Carmona,F.G. Chromatographic analysis of lipoxygenase products. Anal. Chim. Acta, 465, 319-335 (2002).
  • Giovane,A., Balestrieri,A. and Napoli,C. New insights into cardiovascular and lipid metabolomics. J. Cell. Biochem., 105, 648-654 (2008).
  • Glod,B.K., Czapski,G.A. and Haddad,P.R. Application of high-performance liquid chromatography to the investigation of free radical reactions in biological systems. Trends Anal. Chem., 19, 492-497 (2000).
  • Gobel,C. and Feussner,I. Methods for the analysis of oxylipins in plants. Phytochemistry, 70, 1485-1503 (2009).
  • Golay,P.A., Giuffrida,F., Dionisi,F. and Destaillats,F. Streamlined methods for the resolution and quantification of fatty acids including trans fatty acid isomers in food products by gas chromatography. J. AOAC Int., 92, 1301-1309 (2009).
  • Griffiths,W.J. Tandem mass spectrometry in the study of fatty acids, bile acids, and steroids. Mass Spectrom. Rev., 22, 81-152 (2003).
  • Griffiths,W.J. and Wang,Y. Sterol lipidomics in health and disease: Methodologies and applications. Eur. J. Lipid Sci. Technol., 111, 14-38 (2009).
  • Griffiths,W.J. and Wang,Y.Q. Mass spectrometry: from proteomics to metabolomics and lipidomics. Chem. Soc. Rev., 38, 1882-1896 (2009).
  • Griffiths,W.J. and Wang,Y.Q. Analysis of neurosterols by GC-MS and LC-MS/MS. J. Chromatogr. B, 877, 2778-2805 (2009).
  • Griffiths,W.J., Jonsson,A.P., Liu,S., Rai,D.K. and Wang,Y. Electrospray and tandem mass spectrometry in biochemistry. Biochem. J., 355, 545-561 (2001).
  • Gross,M.L. Charge-remote fragmentation: an account of research on mechanisms and applications. Int. J. Mass Spectrom., 200, 611-624 (2000).
  • Gross,R.W. and Han,X. Lipidomics in diabetes and the metabolic syndrome. Methods Enzymol., 433, 73-90 (2007).
  • Grotto,D., Maria,L.S., Valentini,J., Paniz,C., Schmitt,G., Garcia,S.C., Pomblum,V.J., Rocha, J.B.T. and Farina,M. Importance of the lipid peroxidation biomarkers and methodological aspects for malondialdehyde quantification. Quimica Nova, 32, 169-174 (2009).
  • Guan,Z.Q. Discovering novel brain lipids by liquid chromatography/tandem mass spectrometry. J. Chromatogr. B, 877, 2814-2821 (2009).
  • Guichardant,M. and Lagarde,M. Analysis of biomarkers from lipid peroxidation: A comparative study. Eur. J. Lipid Sci. Technol., 111, 75-82 (2009).
  • Gundersen,T.E. and Blomhoff,R. Qualitative and quantitative liquid chromatographic determination of natural retinoids in biological samples. J. Chromatogr. A, 935, 13-43 (2001).
  • Gunstone,F.D. and Herslof,B. Lipid Glossary 2, Oily Press, Bridgwater (2000).
  • Halket,J.M. and Zaikin,V.G. Derivatization in mass spectrometry - 1. Silylation. Eur. J. Mass Spectrom., 9, 1-21 (2003).
  • Halket,J.M. and Zaikin,V.G. Derivatization in mass spectrometry. 3. Alkylation (arylation). Eur. J. Mass Spectrom., 10, 1-19 (2004).
  • Han,X. An update on lipidomics: Progress and application in biomarker and drug development. Current Opinion Mol. Therapeutics, 9, 586-591 (2007).
  • Han,X. Neurolipidomics: challenges and developments. Frontiers Biosci., 12, 2601-2615 (2007).
  • Han,X. and Gross,R.W. Toward total cellular lipidome analysis by ESI mass spectrometry from a crude lipid extract. In 'Modern Methods for Lipid Analysis by Liquid Chromatography/Mass Spectrometry and Related Techniques' (Ed. W.C. Byrdwell, AOCS Press, Champaign), pp. 488-509 (2005).
  • Han,X. and Gross,R.W. Global cellular lipidome analyses by shotgun lipidomics using multidimensional mass spectrometry. In: Lipid Analysis and Lipidomics: New Techniques and Applications. pp. 51-71 (ed: M.M. Mossoba, J.K.G. Kramer, J.T. Brenna and R.E. McDonald, AOCS Press, Champaign, USA) (2006).
  • Han,X.L. and Gross, R.W. Shotgun lipidomics: multidimensional MS analysis of cellular lipidomes. Expert Rev. Proteomics, 2, 253-264 (2005).
  • Han,X.L. and Gross,R.W. Shotgun lipidomics: Electrospray ionization mass spectrometric analysis and quantitation of cellular lipidomes directly from crude extracts of biological samples. Mass Spectrom. Rev., 24, 367-412 (2005).
  • Han,X.L. and Gross,R.W.Han,X.L. and Gross,R.W. Global analyses of cellular lipidomes directly from crude extracts of biological samples by ESI mass spectrometry: a bridge to lipidomics. J. Lipid Res., 44, 1071-1079 (2003).
  • Han,X. and Jiang,X. A review of lipidomic technologies applicable to sphingolipidomics and their relevant applications Eur. J. Lipid Sci. Technol., 111, 39-52 (2009).
  • Hankin,J.A. and Murphy,R.C. Lipid mediators and mass spectrometry: an historical perspective. Int. J. Mass Spectrom., 200, 201-217 (2000).
  • Harvey,D.J. Matrix-assisted laser desorption/ionization mass spectrometry of carbohydrates and glycoconjugates. Int. J. Mass Spectrom., 226, 1-35 (2003).
  • Harvey,D.J. Analysis of carbohydrates and glycoconjugates by matrix-assisted laser desorption/ionization mass spectrometry: An update covering the period 2001-2002. Mass Spectrom. Rev., 27, 125-201 (2008).
  • Hasselbaink,D.M., Roemen,T.H.M. and Van der Vusse,G.J. Determination of long-chain fatty acids in heart and skeletal muscle by capillary gas chromatography. Anal. Chim. Acta, 465, 351-357 (2002).
  • Hayashi,H., Karten,B., Vance,D.E., Campenot,R.B., Maue,R.A. and Vance,J.E. Methods for the study of lipid metabolism in neurons. Anal. Biochem., 331, 1-16 (2004).
  • Hayes,D.G. Lipid separations using packed-column supercritical fluid chromatography. In: Lipid Analysis and Lipidomics: New Techniques and Applications. pp. 239-259 (ed: M.M. Mossoba, J.K.G. Kramer, J.T. Brenna and R.E. McDonald, AOCS Press, Champaign, USA) (2006).
  • Haynes,C.A., Allegood,J.C., Park,H. and Sullards,M.C. Sphingolipidomics: Methods for the comprehensive analysis of sphingolipids. J. Chromatogr. B, 877, 2696-2708 (2009).
  • Hazebroek,J.P. Analysis of genetically modified oils. Prog. Lipid Res., 39, 477-506 (2000).
  • Hazebroek,J.P. Analysis of genetically modified oils. In: Advances in Lipid Methodology - Five, pp. 125-169 (ed. R.O. Adlof, Oily Press, Bridgwater) (2003).
  • Hidalgo,F.J. and Zamora,R. Edible oil analysis by high-resolution nuclear magnetic resonance spectroscopy: recent advances and future perspectives. Trends Food Sci. Technol., 14, 499-506 (2003).
  • Hsu,F.-F. and Turk,J. Electrospray ionization with low-energy collisionally activated dissociation tandem mass spectrometry of complex lipids: structural characterization and mechanisms of fragmentation. In 'Modern Methods for Lipid Analysis by Liquid Chromatography/Mass Spectrometry and Related Techniques' (Ed. W.C. Byrdwell, AOCS Press, Champaign), pp. 61-178 (2005).
  • Hsu,F.-F. and Turk,J. Electrospray ionization with low-energy collisionally activated dissociation tandem mass spectrometry of glycerophospholipids: Mechanisms of fragmentation and structural characterization. J. Chromatogr. B, 877, 2673-2695 (2009).
  • Hu,C.X., van der Heijden,R., Wang,M., van der Greef,J., Hankemeier,T. and Xua,G.W. Analytical strategies in lipidomics and applications in disease biomarker discovery. J. Chromatogr. B, 877, 2836-2846 (2009).
  • Hunt,A.N. and Postle,A.D. Dynamic lipidomic insights into phosphatidylcholine synthesis from organelle to organism. Spectroscopy, 19, 127-135 (2005).
  • Hunt,A.N. and Postle,A.D. Mass spectrometry determination of endonuclear phospholipid composition and dynamics. Methods, 39, 104-111 (2006).
  • Indrasena,W.M., Paulson,A.T. and Ackman,R.G. Comparative study of the separation and quantification of lipid classes separated on Chromarods-A and Chromarods-SIII by thin layer chromatography with Iatroscan (Mark-III) Flame Ionization Detection (TLC-FID). J. Liqu. Chromatogr. Rel. Technol., 30, 2287-2315 (2007).
  • Ishikawa,D. and Taki,T. Thin-layer chromatography blotting using polyvinylidene difluoride membrane (Far-Eastern blotting) and its applications. Methods Enzymol. Sphingolipid Metabolism and Cell Signaling, Part B, 312, 145-157 (2000).
  • Ishikawa,D. and Taki,T. Thin-layer chromatography immunostaining. Methods Enzymol. Sphingolipid Metabolism and Cell Signaling, Part B, 312, 157-159 (2000).
  • Ivanova,P.T., Milne,S.B., Byrne,M.O., Xiang,Y. and Brown,H.A. Glycerophospholipid identification and quantitation by electrospray ionization mass spectrometry. Methods Enzymol., 432, 21-57 (2007).
  • Ivanova,P.T., Milne,S.B., Forrester,J.S. and Brown,H.A. LIPID Arrays: new tools in the understanding of membrane dynamics and lipid signalling. Mol. Interv., 4, 86-96 (2004).
  • Ivanova,P.T., Milne,S.B., Myers,D.S. and Brown,H.A. Lipidomics: a mass spectrometry based systems level analysis of cellular lipids. Curr. Opin. Chem. Biol., 13, 526-531 (2009).
  • Jackson,S.N. and Woods,A.S. Direct profiling of tissue lipids by MALDI-TOFMS. J. Chromatogr. B, 877, 2822-2829 (2009).
  • Jackson,S.N., Wang,H.-Y.J. and Woods,A.S. In situ structural characterization of glycerophospholipids and sulfatides in brain tissue using MALDI-MS/MS. J. Am. Soc. Mass Spectrom., 18, 17-26 (2007).
  • Jandera,P. Gradient elution in normal-phase high-performance liquid chromatographic systems. J. Chromatogr. A, 965, 239-261 (2002).
  • Janssen,H.G., Steenbergen,H. and de Koning,S. The role of comprehensive chromatography in the characterization of edible oils and fats. Eur. J. Lipid Sci. Technol., 111, 1171-1184 (2009).
  • Juaneda,P., Ledoux,M. and Sebedio,J.-L. Analytical methods for determination of trans fatty acid content in food. Eur. J. Lipid Sci. Technol., 109, 901-917 (2007).
  • Kawamura,A., Nakanishi,K. and Berova,N. Use of circular dichroism for assigning stereochemistry of sphingosine and other long-chain bases. Methods Enzymol. Sphingolipid Metabolism and Cell Signaling, Part B, 312, 217-227 (2000).
  • King,J.W. Supercritical fluid chromatography (SFC) - global perspective and applications in lipid technology. In: Advances in Lipid Methodology - Five, pp. 301-366 (ed. R.O. Adlof, Oily Press, Bridgwater) (2003).
  • King,J.W. Supercritical fluid extraction: Present status and prospects. Grasas Aceites, 53, 8-21 (2002).
  • Kingsley,P.J. and Marnett,L.J. LC-MS-MS analysis of neutral eicosanoids. Methods Enzymol., 433, 91-112 (2007).
  • Kingsley,P.J. and Marnett,L.J. Analysis of endocannabinoids, their congeners and COX-2 metabolites. J. Chromatogr. B, 877, 2746-2754 (2009).
  • Knothe,G. Nuclear magnetic resonance spectroscopy. In: ‘The Lipid Handbook - 3rd edition’, pp. 455-469 (edited by F.D. Gunstone, J.L. Harwood and A. Dijkstra, Chapman & Hall, London) (2007).
  • Koga,Y. and Morii,H. Special methods for the analysis of ether lipid structure and metabolism in archaea. Anal. Biochem., 348, 1-14 (2006).
  • Korachi,M., Blinkhorn,A.S. and Drucker,D.B. Analysis of phospholipid molecular species distributions by fast atom bombardment mass spectrometry (FAB-MS). Eur. J. Lipid Sci. Technol., 104, 50-56 (2002).
  • Koropchak,J.A., Magnusson,L.E., Heybroek,M., Sadain,S., Yang,X.H. and Anisimov,M.P. Fundamental aspects of aerosol-based light-scattering detectors for separations. Adv. Chromatogr., 40, 275-314 (2000).
  • Kostiainen,R. and Kauppila,T. Analysis of steroids by liquid chromatography-atmospheric pressure photoionization mass spectrometry. In 'Modern Methods for Lipid Analysis by Liquid Chromatography/Mass Spectrometry and Related Techniques' (Ed. W.C. Byrdwell, AOCS Press, Champaign), pp. 472-487 (2005).
  • Kotani,A., Kusu,F. and Takamura,K. New electrochemical detection method in high-performance liquid chromatography for determining free fatty acids. Anal. Chim. Acta, 465, 199-206 (2002).
  • Kramer,J.K.G. and Zhou,J. Conjugated linoleic acid and octadecenoic acids: Extraction and isolation of lipids. Eur. J. Lipid Sci. Technol., 103, 594-600 (2001).
  • Kramer,J.K.G., Cruz-Hernandez,C. and Zhou,J. Conjugated linoleic acids and octadecenoic acids: Analysis by GC. Eur. J. Lipid Sci. Technol., 103, 600-609 (2001).
  • Kramer,J.K.G., Cruz-Hernandez,C., Deng,Z.Y., Zhou,J.Q., Jahreis,G. and Dugan,M.E.R. Analysis of conjugated linoleic acid and trans 18:1 isomers in synthetic and animal products. Am. J. Clin. Nutr., 79, 1137S-1145S (2004).
  • Krank,J., Murphy,R.C., Barkley,R.M., Duchoslav,E. and McAnoy,A. Qualitative analysis and quantitative assessment of changes in neutral glycerol lipid molecular species within cells. Methods Enzymol., 432, 1-20 (2007).
  • Kuksis,A. Lipidomics in triacylglycerol and cholesteryl ester oxidation. Frontiers Bioscience, 12, 3203-3246 (2007).
  • Kuksis,A. Plasma non-cholesterol sterols. J. Chromatogr. A, 935, 203-236 (2001).
  • Kuksis,A. Inositol Phospholipid Metabolism and Phosphatidyl Inositol Kinases (Laboratory Techniques in Biochemistry and Molecular Biology Vol. 30) (Elsevier, Amsterdam) (2003).
  • Kuksis,A. Liquid chromatography/electrospray ionization mass spectrometry for analysis of oxidized lipids. In 'Modern Methods for Lipid Analysis by Liquid Chromatography/Mass Spectrometry and Related Techniques' (Ed. W.C. Byrdwell, AOCS Press, Champaign), pp. 179-241 (2005).
  • Kuksis,A. and Itabashi,Y. Regio- and stereospecific analysis of glycerolipids. Methods, 36, 172-185 (2005).
  • Kuksis,A. and Itabashi,Y. LC/MS and chiral separation. In: Lipid Analysis and Lipidomics: New Techniques and Applications. pp. 73-108 (ed: M.M. Mossoba, J.K.G. Kramer, J.T. Brenna and R.E. McDonald, AOCS Press, Champaign, USA) (2006).
  • Kuksis,A. and Sjovall,O. LC/MS and lipid oxidation. In: Lipid Analysis and Lipidomics: New Techniques and Applications. pp. 109-156 (ed: M.M. Mossoba, J.K.G. Kramer, J.T. Brenna and R.E. McDonald, AOCS Press, Champaign, USA) (2006).
  • Kuksis,A., Suomela,J.P., Tarvainen,M. and Kallio,H. Lipidomic analysis of glycerolipid and cholesteryl ester autooxidation products. Mol. Biotech., 42, 224-268 (2009).
  • Kumar,N., Krishnan,M., Azzam,T., Magora,A., Ravikumar,M.N.V., Flanagan,D.R. and Domb,A.J. Analysis of fatty acid anhydrides and polyanhydrides. Anal. Chim. Acta, 465, 257-272 (2002).
  • Laakso,P. Mass spectrometry of triacylglycerols. Eur. J. Lipid Sci. Technol., 104, 43-49 (2002).
  • Ladisch,S. and Li,R.X. Purification and analysis of gangliosides. Methods Enzymol. Sphingolipid Metabolism and Cell Signaling, Part B, 312, 135-145 (2000).
  • Larsen,A. and Hvattum,E. Analysis of phospholipids by liquid chromatography coupled with on-line electrospray ionization mass spectrometry and tandem mass spectrometry. In 'Modern Methods for Lipid Analysis by Liquid Chromatography/Mass Spectrometry and Related Techniques' (Ed. W.C. Byrdwell, AOCS Press, Champaign), pp. 19-60 (2005).
  • Lawson,J.A. and FitzGerald,G.A. Analysis of isoprostanes. Eur. J. Lipid Sci. Technol., 104, 429-435 (2002).
  • Ledoux,M., Laloux,L. and Wolff,R,L, Analytical methods for determination of trans-C18 fatty acid isomers in milk fat. A review. Analusis, 28, 402-412 (2000).
  • Lee,S.H., Williams,M.V. and Blair,I.A. Targeted chiral lipidomics analysis. Prostaglandins Other Lipid Mediators, 77, 141-157 (2005).
  • Levery,S.B. Glycosphingolipid structural analysis and glycosphingolipidomics. Methods In Enzymology, 405, 300-369 (2005).
  • Li,J., Martin,A., Cox,A.D., Moxon,E.R., Richards,J.C. and Thibault,P. Mapping bacterial glycolipid complexity using capillary electrophoresis and electrospray mass spectrometry. Methods In Enzymology, 405, 369-397 (2005).
  • Lie Ken Jie,M.S.F. Analysis of conjugated linoleic acid esters by nuclear magnetic resonance spectroscopy. Eur. J. Lipid Sci. Technol., 103, 628-632 (2001).
  • Lima,E.S. and Abdalla,D.S.P. High-performance liquid chromatography of fatty acids in biological samples. Anal. Chim. Acta, 465 81-91 (2002).
  • Lin,J.-T. HPLC separation of acyl lipid classes. J. Liqu. Chromatogr. Rel. Technol., 30, 2005-2020 (2007).
  • Lucena,R., Cardenas,S. and Valcarcel,M. Evaporative light scattering detection: trends in its analytical uses. Anal. Bioanal. Chem., 388, 1663-1672 (2007).
  • Maceyka,M., Milstien,S. and Spiegel,S. Sphingosine kinases, sphingosine-1-phosphate and sphingolipidomics. Prostaglandins Other Lipid Mediators, 77, 15-22 (2005).
  • Mannina,L. and Segre,A. High resolution nuclear magnetic resonance: From chemical structure to food authenticity. Grasas Aceites, 53, 22-33 (2002).
  • M?rquez-Ruiz,G. and Dobarganes,M.C. High-performance size-exclusion chromatography for lipid analysis in organic media. In: Lipid Analysis and Lipidomics: New Techniques and Applications. pp. 205-238 (ed: M.M. Mossoba, J.K.G. Kramer, J.T. Brenna and R.E. McDonald, AOCS Press, Champaign, USA) (2006).
  • Maskrey,B.H. and O'Donnell,V.B. Analysis of eicosanoids and related lipid mediators using mass spectrometry. Biochem. Soc. Trans., 36, 1055-1059 (2008).
  • McDonald,J.G., Thompson,B.M., McCrum,E.C. and Russell,D.W. Extraction and analysis of sterols in biological matrices by high performance liquid chromatography electrospray ionization mass spectrometry. Methods Enzymol., 432, 145-170 (2007).
  • McDonnell,L.A. and Heeren,R.M. Imaging mass spectrometry. Mass Spectrom. Rev., 26, 606-643 (2007).
  • Meier-Augenstein,W. Stable isotope analysis of fatty acids by gas chromatography-isotope ratio mass spectrometry. Anal. Chim. Acta, 465, 63-79 (2002).
  • Meikle,P.J., Fuller,M. and Hopwood,J.J. Mass spectrometry in the study of lysosomal storage disorders. Cell. Mol. Biol., 49, 769-777 (2003).
  • Melis,M.P., Angioni,E., Carta,G., Murru,E., Scanu,P., Spada,S. and Banni,S. Characterization of conjugated linoleic acid and its metabolites by RP-HPLC with diode array detector. Eur. J. Lipid Sci. Technol., 103, 617-621 (2001).
  • Merrill,A.H., Caligan,T.B., Wang,E., Peters,K. and Joyce,O.U. Analysis of sphingoid bases and sphingoid base 1-phosphates by high-performance liquid chromatography. Methods Enzymol. Sphingolipid Metabolism and Cell Signaling, Part B, 312, 3-9 (2000).
  • Merrill,A.H., Stokes,T.H., Momin,A., Park,H., Portz,B.J., Kelly,S., Wang,E., Sullards,M.C. and Wang,M.D. Sphingolipidomics: a valuable tool for understanding the roles of sphingolipids in biology and disease. J. Lipid Res., 50, S97-S102 (2009).
  • Merrill,A.H., Sullards,M.C., Allegood,J.C., Kelly,S. and Wang,E. Sphingolipidomics: High-throughput, structure-specific, and quantitative analysis of sphingolipids by liquid chromatography tandem mass spectrometry. Methods, 36, 207-224 (2005).
  • Michel,F., Bonnefont-Rousselot,D., Mas,E., Drai,J. and Therond,P. Biomarkers of lipid peroxidation: analytical aspects. Annales Biologie Clinique, 66, 605-620 (2008).
  • Milne,G.L., Yin,H., Brooks,J.D., Sanchez,S., Roberts,L.J. and Morrow,J.D. Quantification of F2-isoprostanes in biological fluids and tissues as a measure of oxidant stress. Methods Enzymol., 433, 113-126 (2007).
  • Milne,S., Ivanova,P., Forrester,J. and Brown,H.A. Lipidomics: An analysis of cellular lipids by ESI-MS. Methods, 39, 92-103 (2006).
  • Mitchell,T.W., Pham,H., Thomas,M.C. and Blanksby,S.J. Identification of double bond position in lipids: From GC to OzID. J. Chromatogr. B, 877, 2722-2735 (2009).
  • Miwa,H. High-performance liquid chromatographic determination of free fatty acids and esterified fatty acids in biological materials as their 2-nitrophenylhydrazides. Anal. Chim. Acta, 465, 237-255 (2002).
  • Momchilova,S. and Nikolova-Damyanova,B. Stationary phases for silver ion chromatography of lipids: Preparation and properties. J. Sep. Sci., 26, 261-270 (2003).
  • Moore,J.D., Caufield,W.V. and Shaw,W.A. Quantitation and standardization of lipid internal standards for mass spectroscopy. Methods Enzymol., 432, 351-367 (2007).
  • Moreau,R.A. Lipid analysis via HPLC with a charged aerosol detector. Lipid Technology, 21 191-194 (2009).
  • Moreau,R.A., Whitaker,B.D. and Hicks,K.B. Phyosterols, phytostanols, and their conjugates in foods: structural diversity, quantitative analysis, and health-promoting uses. Prog. Lipid Res., 41, 457-500 (2002).
  • Moreau,R.A. An overview of modern mass spectrometry methods in the toolbox of lipid chemists and biochemists. In: Lipid Analysis and Lipidomics: New Techniques and Applications. pp. 29-49 (ed: M.M. Mossoba, J.K.G. Kramer, J.T. Brenna and R.E. McDonald, AOCS Press, Champaign, USA) (2006).
  • Mossoba,M.M. Application of infrared spectroscopy to fatty acid analysis. INFORM, 19, 701-703 (2008).
  • Mossoba,M.M. Application of gas chromatography-infrared spectroscopy to the confirmation of the double bond configuration of conjugated linoleic acid isomers. Eur. J. Lipid Sci. Technol., 103, 624-627 (2001).
  • Mossoba,M.M., McDonald,R.E., Yurawecz,M.P. and Kramer,J.K.G. Application of on-line capillary GC-FTIR spectroscopy to lipid analysis. Eur. J. Lipid Sci. Technol., 103, 826-830 (2001).
  • Mossoba,M.M., Moss,J. and Kramer,J.K.C. Trans fat labeling and levels in us foods: assessment of gas chromatographic and infrared spectroscopic techniques for regulatory compliance. J. AOAC Int., 92, 1284-1300 (2009).
  • Mossoba,M.M., Yurawecz,M.P., Delmonte,P. and Kramer,J.K.G. Overview of infrared methodologies for trans fat determination. J. Ass. Off. Anal. Chem. Int., 87, 540-544 (2004).
  • Mottram,H.R. Regiospecific analysis of triacylglycerols using high performance liquid chromatography/atmospheric pressure chemical ionization mass spectrometry. In 'Modern Methods for Lipid Analysis by Liquid Chromatography/Mass Spectrometry and Related Techniques' (Ed. W.C. Byrdwell, AOCS Press, Champaign), pp. 276-297 (2005).
  • Mueller,M.J., Mene-Saffrane,L., Grun,C., Karg,K. and Farmer,E.E. Oxylipin analysis methods. Plant J., 45, 472-489 (2006).
  • Mukhamedova,K.S. and Glushenkova,A.I. Natural phosphonolipids. Chem. Nat. Comp., 36, 329-341 (2000).
  • Murphy,R.C., Barkley,R.M., Berry,K.Z., Hankin,J., Harrison,K., Johnson,C., Krank,J., McAnoy,A., Uhlson,C. and Zarini,S. Electrospray ionization and tandem mass spectrometry of eicosanoids. Anal. Biochem., 346, 1-42 (2005).
  • Murphy,R.C., Fiedler,J. and Hevko,J. Analysis of nonvolatile lipids by mass spectrometry. Chem. Rev. 101, 479-526 (2001).
  • Murphy,R.C., Hankin,J.A. and Barkley,R.M. Imaging of lipid species by MALDI mass spectrometry. J. Lipid Res., 50, S317-S322 (2009).
  • Murphy,R.C., Raetz,C.R.H., Reynolds,C.M. and Barkley,R.M. Mass spectrometry advances in lipidomica: collision-induced decomposition of Kdo(2)-lipid A. Prostaglandins Other Lipid Mediators, 77, 131-140 (2005).
  • Musshoff,F. Chromatographic methods for the determination of markers of chronic and acute alcohol consumption. J. Chromatogr. B, 781, 457-480 (2002).
  • Muthing,J. Analyses of glycosphingolipids by high-performance liquid chromatography. Methods Enzymol. Sphingolipid Metabolism and Cell Signaling, Part B, 312, 45-64 (2000).
  • Navas-Iglesias,N., Carrasco-Pancorbo,A. and Cuadros-Rodr?guez,L. From lipids analysis towards lipidomics, a new challenge for the analytical chemistry of the 21st century. Part II: Analytical lipidomics. Trends, Anal. Chem., 28, 393-403 (2009).
  • Niemela,P.S., Castillo,S., Sysi-Aho,M. and Oresic,M. Bioinformatics and computational methods for lipidomics. J. Chromatogr. B, 877, 2855-2862 (2009).
  • Nikolova-Damyanova,B. Retention of lipids in silver ion high-performance liquid chromatography: Facts and assumptions. J. Chromatogr. A, 1216, 1815-1824 (2009).
  • Nikolova-Damyanova,B. Lipid analysis by silver ion chromatography. In: Advances in Lipid Methodology - Five, pp. 43-123 (ed. R.O. Adlof, Oily Press, Bridgwater) (2003).
  • Nikolova-Damyanova,B. and Momchilova,S. Silver ion thin-layer chromatography of fatty acids. A survey. J. Liqu. Chromatogr. Rel. Technol., 24, 1447-1466 (2001).
  • Nikolova-Damyanova,B. and Momchilova,S. Silver ion HPLC for the analysis of positionally isomeric fatty acids. J. Liqu. Chromatogr. Rel. Technol., 25, 1947-1965 (2002).
  • Nourooz-Zadeh,J. Key issues in F2-isoprostane analysis. Biochem. Soc. Trans., 36, 1060-1065 (2008).
  • Nu?ez,A., Moreau,R.A. and Foglia,T.A. Liquid chromatography/mass spectrometry analysis of biosurfactant glycolipids secreted by microorganisms. In 'Modern Methods for Lipid Analysis by Liquid Chromatography/Mass Spectrometry and Related Techniques' (Ed. W.C. Byrdwell, AOCS Press, Champaign), pp. 447-471 (2005).
  • Obata,T. Strategy and principles of the simultaneous analysis of prostanoids by gas chromatography/mass spectrometry/selected-ion monitoring. Anal. Chim. Acta, 465, 379-393 (2002).
  • Ohba,Y., Kuroda,N. and Nakashima,K. Liquid chromatography of fatty acids with chemiluminescence detection. Anal. Chim. Acta, 465, 101-109 (2002).
  • Oleszek,W. and Bialy,Z. Chromatographic determination of plant saponins - an update (2002-2005). J. Chromatogr. A, 1112, 78-91 (2006).
  • Oresic,M. Bioinformatics and computational approaches applicable to lipidomics. Eur. J. Lipid Sci. Technol., 111, 99-106 (2009).
  • Oresic,M., Hanninen,V.A. and Vidal-Puig,A. Lipidomics: a new window to biomedical frontiers. Trends Biotechnol., 26, 647-652 (2008).
  • Otieno,A.C. and Mwongela,S.M. Capillary electrophoresis-based methods for the determination of lipids - A review. Anal. Chim. Acta, 624, 163-174 (2008).
  • Pajkovic,N. and van Breemen,R.B. Analysis of carotenoids using atmospheric pressure chemical ionization mass spectrometry. In 'Modern Methods for Lipid Analysis by Liquid Chromatography/Mass Spectrometry and Related Techniques' (Ed. W.C. Byrdwell, AOCS Press, Champaign), pp. 413-430 (2005).
  • Palmquist,D.L. and Jenkins,T.C. Challenges with fats and fatty acid methods. J. Anim. Sci., 81, 3250-3254 (2003).
  • Panagiotopoulou,P.M. and Tsimidou,M. Solid phase extraction: Applications to the chromatographic analysis of vegetable oils and fats. Grasas Aceites, 53, 84-95 (2002).
  • Peterson,B.L. and Cummings,B.S. A review of chromatographic methods for the assessment of phospholipids in biological samples. Biomed. Chromatogr., 20, 227-243 (2006).
  • Pitt,A.R. and Spickett,C.M. Mass spectrometric analysis of HOCl- and free-radical-induced damage to lipids and proteins. Biochem. Soc. Trans., 36, 1077-1082 (2008).
  • Politi,L., Leone,F., Morini,L. and Polettini,A. Bioanalytical procedures for determination of conjugates or fatty acid esters of ethanol as markers of ethanol consumption: A review. Anal. Biochem., 368, 1-16 (2007).
  • Postle,A.D. Phospholipid lipidomics in health and disease. Eur. J. Lipid Sci. Technol., 111, 2-13 (2009).
  • Postle,A.D. Electrospray mass spectrometry of lipids. Lipid Technology, 18, 181-185 (2006).
  • Postle,A.D. and Hunt,A.N. Dynamic lipidomics with stable isotope labelling. J. Chromatogr. B, 877, 2716-2721 (2009).
  • Postle,A.D., Wilton,D.C., Hunt ,A.N. and Attard,G.S. Probing phospholipid dynamics by electrospray ionisation mass spectrometry. Prog. Lipid Res., 46, 200-224 (2007).
  • Pulfer,M. and Murphy,R.C. Electrospray mass spectrometry of phospholipids. Mass Spectrom. Rev., 22, 332-364 (2003).
  • Quinto Tranchida,P., Donato,P., Dugo,P., Dugo,G. and Mondello,L. Comprehensive chromatographic methods for the analysis of lipids. Trends Anal. Chem., 26, 191-205 (2007).
  • Raith,K., Farwanah,H., Wartewig,S. and Neubert,R.H.H. Progress in the analysis of Stratum corneum ceramides. Eur. J. Lipid Sci. Technol., 106, 561-571 (2004).
  • Ratnayake,W.M.N. Overview of methods for the determination of trans fatty acids by gas chromatography, silver-ion thin-layer chromatography, silver-ion liquid chromatography, and gas chromatography/mass spectrometry. J. Ass. Off. Anal. Chem. Int., 87, 523-539 (2004).
  • Ratnayake,W.M.N. and Cruz-Hernandez,C. Analysis of trans fatty acids of partially hydrogenated vegetable oils and dairy fats. In: Trans Fatty Acids in Human Nutrition (2nd edition), pp. 105-146 (F. Destaillats, J.L. S?b?dio, F. Dionisi and J.-M. Chardigny (eds), Oily Press, Bridgwater) (2009).
  • Rezanka,T. and Sigler,K. The use of atmospheric pressure chemical ionization mass spectrometry with high performance liquid chromatography and other separation techniques for identification of triacylglycerols. Curr. Anal. Chem., 3, 252-271 (2007).
  • Rezanka,T. and Votruba,J. Chromatography of very long-chain fatty acids from animal and plant kingdoms. Anal. Chim. Acta, 465, 273-297 (2002).
  • Rezanka,T. and Votruba,J. Chromatography of long chain alcohols (polyprenols) from animal and plant sources. J. Chromatogr. A, 936, 95-110 (2001).
  • Rezanka,T. and Votruba,J. Analysis of fatty acids by APCI-MS. In 'Modern Methods for Lipid Analysis by Liquid Chromatography/Mass Spectrometry and Related Techniques' (Ed. W.C. Byrdwell, AOCS Press, Champaign), pp. 242-275 (2005).
  • Rezanka,T., Olsovska,J., Sobotka,M. and Sigler,K. The use of APCI-MS with HPLC and other separation techniques for identification of carotenoids and related compounds. Curr. Anal. Chem., 5, 1-25 (2009).
  • Roach,J.A.G. Analysis of CLA derivatives by GC/MS. Eur. J. Lipid Sci. Technol., 103, 621-624 (2001).
  • Roach,J.A.G., Mossoba,M.M., Yurawecz,M.P. and Kramer,J.K.G. Chromatographic separation and identification of conjugated linoleic acid isomers. Anal. Chim. Acta, 465, 207-226 (2002).
  • Roberts,L.D., McCombie,G., Titman,C.M. and Griffin,J.L. A matter of fat: An introduction to lipidomic profiling methods. J. Chromatogr. B, 871, 174-181 (2008).
  • Rodriguez-Estrada,M.T., Frega,N. and Lercker,G. Applications on thermostable polar capillary GC columns. Grasas Aceites, 53, 76-83 (2002).
  • Rombaut,R. and Dewettinck,K. Properties, analysis and purification of milk polar lipids. Int. Dairy J., 16, 1362-1373 (2006).
  • Rosenfeld,J.M. Application of analytical derivatizations to the quantitative and qualitative determination of fatty acids. Anal. Chim. Acta, 465, 93-100 (2002).
  • Ross,A.B., Aman,P., Andersson,R. and Kamal-Eldin,A. Chromatographic analysis of alkylresorcinols and their metabolites. J. Chromatogr. A, 1054, 157-164 (2004).
  • Ruiz-Gutierrez,V. and Perez-Camino,M.C. Update on solid-phase extraction for the analysis of lipid classes and related compounds. J. Chromatogr. A, 885, 321-341 (2000).
  • Rusten,T.E. and Stenmark,H. Analyzing phosphoinositides and their interacting proteins. Nature Methods, 3, 251-258 (2006).
  • Sajiki,J. and Yonekubo,J. Determination of free polyunsaturated fatty acids and their oxidative metabolites by high-performance liquid chromatography (HPLC) and mass spectrometry (MS). Anal. Chim. Acta, 465, 417-426 (2002).
  • Scandroglio,F., Loberto,N., Valsecchi,M., Chigorno,V., Prinetti,A. and Sonnino,S. Thin layer chromatography of gangliosides. Glycoconjugate J., 26, 961-973 (2009).
  • Schiller,J., Mueller,M., Fuchs,B., Arnold,K. and Huster,D. P-31 NMR Spectroscopy of phospholipids: from micelles to membranes. Curr. Anal. Chem., 3, 283-301 (2007).
  • Schiller,J., Suess,R., Fuchs,B., Mueller,M., Zschoernig,O. and Arnold,K. Recent applications of MALDI-TOF mass spectrometry and P-31 NMR spectroscopy in phospholipid research. Future Lipidology, 1, 115-125 (2006).
  • Schiller,J., S??,R., Arnhold,J., Fuchs,B., Le?ig,J., M?ller,M., Petkovic,M. Spalteholz,H., Zsch?rnig,O. and Arnold,K. Matrix-assisted laser desorption and ionization time-of-flight (MALDI-TOF) mass spectrometry in lipid and phospholipid research. Prog. Lipid Res., 43, 449-488 (2004).
  • Schiller,J., Suss,R., Fuchs,B., Muller,M., Zschornig,O. and Arnold,K. MALDI-TOF MS in lipidomics. Frontiers Biosci., 12, 2568-2579 (2007).
  • Schlame,M. Assays of cardiolipin levels. Methods Cell Biol., 80, 223-240 (2007).
  • Schneider,C., Yu,Z., Boeglin,W.E., Zheng,Y. and Brash,A.R. Enantiomeric separation of hydroxy and hydroperoxy eicosanoids by chiral column chromatography. Methods Enzymol., 433, 145-157 (2007).
  • Schwedhelm,E. and Boger,R.H. Application of gas chromatography-mass spectrometry for analysis of isoprostanes: Their role in cardiovascular disease. Clin. Chem. Lab. Med., 41, 1552-1561 (2003).
  • Schwedhelm,E., Benndorf,R.A., Boeger,R.H. and Tsikas,D. Mass spectrometric analysis of F-2-isoprostanes: Markers and mediators in human disease. Curr. Pharm. Anal., 3, 39-51 (2007).
  • Schwudke,D., Liebisch,G., Herzog,R., Schmitz,G. and Shevchenko,A. Shotgun lipidomics by tandem mass spectrometry under data-dependent acquisition control. Methods Enzymol., 433, 175-191 (2007).
  • Scrimgeour,C.M. Measurement and applications of stable isotopes in fatty acids. Eur. J. Lipid Sci. Technol., 104, 57-59 (2002).
  • Se?or?ns,F.J. and Iba?ez,E. Analysis of fatty acids in foods by supercritical fluid chromatography. Anal. Chim. Acta, 465, 131-144 (2002).
  • Seppanen-Laakso,T. and Oresic,M. How to study lipidomes. J. Mol. Endocrinol., 42, 185-190 (2009).
  • Sepp?nen-Laakso,T., Laakso,I. and Hiltunen,R. Analysis of fatty acids by gas chromatography, and its relevance to research on health and nutrition. Anal. Chim. Acta, 465, 39-62 (2002).
  • Serhan,C.N. Mediator lipidomics. Prostaglandins Other Lipid Mediators, 77, 4-14 (2005).
  • Serhan,C.N., Hong,S. and Lu,Y. Lipid mediator informatics-lipidomics: Novel pathways in mapping resolution. AAPS J., 8, E284-E297 (2006).
  • Serhan,C.N., Lu,Y., Hong,S. and Yang,R. Mediator lipidomics: search algorithms for eicosanoids, resolvins, and protectins. Methods Enzymol., 432, 275-317 (2007).
  • Sherma,J. and Fried,B. Thin layer chromatographic analysis of biological samples. A review. J. Liqu. Chromatogr. Rel. Technol., 28, 2297-2314 (2005).
  • Shrago,E. and Woldegiorgis,G. Isolation and separation of individual long-chain acyl-coenzyme A esters. Anal. Chim. Acta, 465, 427-431 (2002).
  • Song,H.W., Ladenson,J. and Turk,J. Algorithms for automatic processing of data from mass spectrometric analyses of lipids. J. Chromatogr. B, 877, 2847-2854 (2009).
  • Stahlman,M., Ejsing,C.S., Tarasov,K., Perman,J., Boren,J. and Ekroos,K. High-throughput shotgun lipidomics by quadrupole time-of-flight mass spectrometry. J. Chromatogr. B, 877, 2664-2672 (2009).
  • Steinhart,H., Rickert,R. and Winkler,K. Trans fatty acids (TFA): Analysis, occurrence, intake and clinical relevance. Eur. J. Med. Res., 8, 358-362 (2003).
  • Steinhart,H., Rickert,R. and Winkler,K. Identification and analysis of conjugated linoleic acid isomers (CLA). Eur. J. Med. Res., 8, 370-372 (2003).
  • Steinhart,H., Winkler,K. and Rickert,R. Trans- and conjugated fatty acids in food - contents and analytical aspects. Oleag. Corps Gras Lipides, 8, 29-32 (2001).
  • Subbanagounder,G., Watson,A.D. and Berliner,J.A. Bioactive products of phospholipid oxidation: Isolation, identification, measurement and activities. Free Rad. Biol. Med., 28, 1751-1761 (2000).
  • Sullards,M.C. Analysis of sphingomyelin, glucosylceramide, ceramide, sphingosine, and sphingosine 1-phosphate by tandem mass spectrometry. Methods Enzymol. Sphingolipid Metabolism and Cell Signaling, Part B, 312, 32-45 (2000).
  • Sullards,M.C., Allegood,J.C., Kelly,S., Wang,E., Haynes,C.A., Park,H., Chen,Y. and Merrill,A.H. Structure-specific, quantitative methods for analysis of sphingolipids by liquid chromatography-tandem mass spectrometry: 'inside-out' sphingolipidomics. Methods Enzymol., 432, 83-115 (2007).
  • Taketomi,T. and Sugiyama,E. Extraction and analysis of multiple sphingolipids from a single sample. Methods Enzymol. Sphingolipid Metabolism and Cell Signaling, Part B, 312, 80-101 (2000).
  • Tan,B., Bradshaw,H.B., Rimmerman,N., Srinivasan,H., Yu,Y.W., Krey,J.F., Monn,M.F., Chen,J..S.-C., Hu,S..S.-J., Pickens,S.R. and Walker,J.M. Targeted lipidomics: discovery of new fatty acyl amides. AAPS J., 8, E461-E465 (2006).
  • Tepper,A.D. and Van Blitterswijk,W.J. Ceramide mass analysis by normal-phase high-performance liquid chromatography. Methods Enzymol. Sphingolipid Metabolism and Cell Signaling, Part B, 312,16-22 (2000).
  • Toyo'oka,T. Fluorescent tagging of physiologically important carboxylic acids, including fatty acids, for their detection in liquid chromatography. Anal. Chim. Acta, 465, 111-130 (2002).
  • Turini,M.E. and Martin,J.-C. Sources, functions and analysis of conjugated linoleic acid and its metabolites. In: 'Structured and Modified Lipids', pp. 251-284 (ed. F.D. Gunstone, Marcel Dekker, New York) (2001).
  • Tuz,M.A., Kuliszkiewicz-Janus,M. and Baczynski,S. Application of P-31 magnetic resonance spectroscopy to observation of phospholipid concentration changes in blood serum, plasma, peripheral blood mononuclear cells and bone marrow mononuclear cells from patients with hematological cancers - a methodological review. Polish J. Chem., 80, 1009-1019 (2006).
  • Tvrzick?,E., Vecka,M., Stankov?,B. and Z?k,A. Analysis of fatty acids in plasma lipoproteins by gas chromatography-flame ionization detection: Quantitative aspects. Anal. Chim. Acta, 465, 337-350 (2002).
  • Tyurin,V.A., Tyurina,Y.Y., Kochanek,P.M., Hamilton,R., DeKosky,S.T., Greenberger,J.S., Bayir,H. and Kagan,V.E. Oxidative lipidomics of programmed cell death. Methods Enzymol., 442, 375-393 (2008).
  • van de Voort,F.R., Sedman,J. and Russin,T. Lipid analysis by vibrational spectroscopy. Eur. J. Lipid Sci. Technol., 103, 815-840 (2001).
  • van Echten-Deckert,G. Sphingolipid extraction and analysis by thin-layer chromatography. Methods Enzymol. Sphingolipid Metabolism and Cell Signaling, Part B, 312, 64-79 (2000).
  • Volin,P. Analysis of steroidal lipids by gas and liquid chromatography. J. Chromatogr. A, 935, 125-140 (2001).
  • Wakelam,M.J.O., Pettitt,T.R. and Postle,A.D. Lipidomic analysis of signaling pathways. Methods Enzymol., 432, 233-246 (2007).
  • Walker,J.M., Krey,J.F., Chen,J.S., Vefring,E., Jahnsen,J.A., Bradshaw,H. and Huang,S.M. Targeted lipidomics: fatty acid amides and pain modulation. Prostaglandins Other Lipid Mediators, 77, 35-45 (2005).
  • Wanasundera,U. and Fedec,P. Centrifugal partition chromatography (CPC): Emerging separation and purification technique for lipid and related compounds. INFORM, 13, 726-730 (2002).
  • Wang,D. and DuBois,R.N. Measurement of eicosanoids in cancer tissues. Methods Enzymol., 433, 27-50 (2007).
  • Wang,Y.H., Krull,I.S., Liu,C. and Orr,J.D. Derivatization of phospholipids. J. Chromatogr. B, 793, 3-14 (2003).
  • Watson,A.D. Lipidomics: a global approach to lipid analysis in biological systems. J. Lipid Res., 47, 2101-2111 (2006).
  • Watson,D.G., Atsriku,C. and Oliveira,E.J. Review role of liquid chromatography-mass spectrometry in the analysis of oxidation products and antioxidants in biological systems. Anal. Chim. Acta, 492, 17-47 (2003).
  • Welti,R. and Wang,X.M. Lipid species profiling: a high-throughput approach to identify lipid compositional changes and determine the function of genes involved in lipid metabolism and signaling. Curr. Opinion Plant Biol., 7, 337-344 (2004).
  • Welti,R., Shah,J., Li,W., Li,M., Chen,J., Burke,J.J., Fauconnier,M.-L., Chapman,K., Chye,M.-L. and Wang,X. Plant lipidomics: Discerning biological function by profiling plant complex lipids using mass spectrometry. Frontiers Biosci., 12, 2494-2506 (2007).
  • Wheatley,R.A. Some recent trends in the analytical chemistry of lipid peroxidation. Trends Anal. Chem., 19, 617-628 (2000).
  • Wiest,M.M. and Watkins,S.M. Biomarker discovery using high-dimensional lipid analysis. Current Opinion Lipidology, 18, 181-186 (2007).
  • Wolf,C. and Quinn,P.J. Lipidomics: practical aspects and applications. Prog. Lipid Res., 47, 15-36 (2008).
  • Wolff,R.L. and Christie,W.W. Structures, practical sources (gymnosperm seeds), gas-liquid chromatographic data (equivalent chain lengths), and mass spectrometric characteristics of all-cis 5-olefinic acids. Eur. J. Lipid Sci. Technol., 104, 234-244 (2002).
  • Woods,A.S. and Jackson,S.N. Brain tissue lipidomics: Direct probing using matrix-assisted laser desorption/ionization mass spectrometry. AAPS J., 8, E391-E395 (2006).
  • Woods,A.S., Wang,H.-Y.J. and Jackson,S.N. A snapshot of tissue glycerolipids. Curr. Pharm. Design, 13, 3344-3356 (2007).
  • Yamane,M. High-performance liquid chromatography-thermospray ionization-mass spectrometry of the oxidation products of polyunsaturated-fatty acids. Anal. Chim. Acta, 465, 227-236 (2002).
  • Yamauchi,R. Analysis of molecular species of plant glycolipids by HPLC/APCI-MS. In 'Modern Methods for Lipid Analysis by Liquid Chromatography/Mass Spectrometry and Related Techniques' (Ed. W.C. Byrdwell, AOCS Press, Champaign), pp. 431-446 (2005).
  • Yang,K., Zhao,Z.D., Gross,R.W. and Han,X. Systematic analysis of choline-containing phospholipids using multi-dimensional mass spectrometry-based shotgun lipidomics. J. Chromatogr. B, 877, 2924-2936 (2009).
  • Yin,H. and Porter,N.A. Identification of intact lipid peroxides by Ag+ coordination ion-spray mass spectrometry (CIS-MS). Methods Enzymol., 433, 193-211 (2007).
  • Yu,R.K. and Ariga,T. Ganglioside analysis by high-performance thin-layer chromatography. Methods Enzymol. Sphingolipid Metabolism and Cell Signaling, Part B, 312, 115-134 (2000).
  • Yurawecz,M.P. and Morehouse,K.M. Silver-ion HPLC of conjugated linoleic acid isomers. Eur. J. Lipid Sci. Technol., 103, 609-613 (2001).
  • Zaikin,V.G. and Halket,J.M. Derivatization in mass spectrometry - 2. Acylation. Eur. J. Mass Spectrom., 9, 421-434 (2003).
  • Zehethofer,N. and Pinto,D.M. Recent developments in tandem mass spectrometry for lipidomic analysis. Anal. Chim. Acta, 627, 62-70 (2008).

 

Updated August 22, 2011