Lipid Analysis Literature 2014

The following references were collected as part of our regular literature reviews, and therefore reflect our personal interests. However, most mainstream lipid analytical topics are covered. Among the exceptions are "steroidal hormones", "prostanoids", "fat-soluble vitamins" and "terpenoids", although some papers in these categories may be posted. We do attempt to cover the subject exhaustively, but we do our best to find papers that exhibit novel analytical methodology especially. References are listed alphabetically by the first author.

References for the next month are added at approximately monthly intervals by merging with the existing references. The most recent references of all will be found in the web page - "this month's references".

References Collected to the End of July, 2014

  • Abdel-Mawgoud, A.M.., Lepine, F.. and Deziel, E. Liquid chromatography/mass spectrometry for the identification and quantification of rhamnolipids. Methods Mol. Biol., 1149, 359-373 (2014).
  • Akanbi, T.O., Sinclair, A.J. and Barrow, C.J. Pancreatic lipase selectively hydrolyses DPA over EPA and DHA due to location of double bonds in the fatty acid rather than regioselectivity. Food Chem., 160, 61-66 (2014).
  • Alves, S.P. and Bessa, R.J.B. The trans-10,cis-15 18:2: a missing intermediate of trans-10 shifted rumen biohydrogenation pathway? Lipids,6, 527-541 (2014).
  • Amayo, K.O., Raab, A., Krupp, E.M. and Feldmann, J. Identification of arsenolipids and their degradation products in cod-liver oil. Talanta, 118, 217-223 (2014).
  • Araujo, P., Zhu, H., Breivik, J.F., Hjelle, J.I. and Zeng, Y. Determination and structural elucidation of triacylglycerols in krill oil by chromatographic techniques. Lipids, 49, 163-172 (2014).
  • Baker, R.C., Nikitina, Y. and Subauste, A.R. Analysis of adipose tissue lipid using mass spectrometry. Methods in Enzymology, 538, 89-105 (2014).
  • Bang, D.Y., Byeon, S.K. and Moon, M.H. Rapid and simple extraction of lipids from blood plasma and urine for liquid chromatography-tandem mass spectrometry. J. Chromatogr. A, 1331, 19-26 (2014).
  • Bao, J., Gao, X. and Jones, A.D. Unusual negative charge-directed fragmentation: collision-induced dissociation of cyclopentenone oxylipins in negative ion mode. Rapid Commun. Mass Spectrom., 28, 457-464 (2014).
  • Berry, K.A.Z., Gordon, W.C., Murphy, R.C. and Bazan, N.G. Spatial organization of lipids in the human retina and optic nerve by MALDI imaging mass spectrometry. J. Lipid Res., 55, 504-515 (2014).
  • Bian, J., Xue, Y., Yao, K., Gu, X., Yan, C. and Wang, Y. Solid-phase extraction approach for phospholipids profiling by titania-coated silica microspheres prior to reversed-phase liquid chromatography-evaporative light scattering detection and tandem mass spectrometry analysis. Talanta, 123, 233-240 (2014).
  • Boutin, M. and Auray-Blais, C. Multiplex tandem mass spectrometry analysis of novel plasma lyso-Gb(3)-related analogues in Fabry disease. Anal. Chem., 86, 3476-3483 (2014).
  • Bowden, J.A., Bangma, J.T. and Kucklick, J.R. Development of an automated multi-injection shotgun lipidomics approach using a triple quadrupole mass spectrometer. Lipids, 49, 609-619 (2014).
  • Breitbach, Z.S., Weatherly, C.A., Woods, R.M., Xu, C., Vale, G., Berthod, A. and Armstrong, D.W. Development and evaluation of gas and liquid chromatographic methods for the analysis of fatty amines. J. Sep. Sci., 37, 558-565 (2014).
  • Briskey, D.R., Wilson, G.R., Fassett, R.G. and Coombes, J.S. Optimized method for quantification of total F-2-isoprostanes using gas chromatography-tandem mass spectrometry. J. Pharm. Biomed. Anal., 90, 161-166 (2014).
  • Buré, C., Cacas, J.-L., Mongrand, S. and Schmitter, J.-M. Characterization of glycosyl inositol phosphoryl ceramides from plants and fungi by mass spectrometry. Anal. Bioanal. Chem., 406, 995-1010 (2014).
  • Bystrowska, B., Smaga, I., Tyszka-Czochara, M. and Filip, M. Troubleshooting in LC-MS/MS method for determining endocannabinoid and endocannabinoid-like molecules in rat brain structures applied to assessing the brain endocannabinoid/endovanilloid system significance. Toxicol. Mech. Methods, 24, 315-322 (2014).
  • Castejon, D., Mateos-Aparicio, I., Molero, M.D., Cambero, M.I. and Herrera, A. Evaluation and optimization of the analysis of fatty acid types in edible oils by H-1-NMR. Food Anal. Methods, 7, 1285-1297 (2014).
  • Chatgilialoglu, C., Ferreri, C., Melchiorre, M., Sansone, A. and Torreggiani, A. Lipid geometrical isomerism: from chemistry to biology and diagnostics. Chem. Rev., 114, 255-284 (2014).
  • Crick, P.J., Aponte, J., Bentley, T.W., Matthews, I., Wang, Y. and Griffiths, W.J. Evaluation of novel derivatisation reagents for the analysis of oxysterols. Biochem. Biophys. Res. Commun., 446, 756-761 (2014).
  • D'Archivio, A.A., Maggi, M.A. and Ruggieri, F. Modelling of UPLC behaviour of acylcarnitines by quantitative structure-retention relationships. J. Pharm. Biomed. Anal., 96, 224-230 (2014).
  • da Costa Filho, P.A. Developing a rapid and sensitive method for determination of trans-fatty acids in edible oils using middle-infrared spectroscopy. Food Chem., 158, 1-7 (2014).
  • Dasilva, G., Pazos, M., Gallardo, J.M., Rodriguez, I., Cela, R. and Medina, I. Lipidomic analysis of polyunsaturated fatty acids and their oxygenated metabolites in plasma by solid-phase extraction followed by LC-MS. Anal. Bioanal. Chem., 406, 2827-2839 (2014).
  • de los Reyes, C., Avila-Roman, J., Ortega, M.J., de la Jara, A., Garcia-Maurino, S., Motilva, V. and Zubia, E. Oxylipins from the microalgae Chlamydomonas debaryana and Nannochloropsis gaditana and their activity as TNF-alpha inhibitors. Phytochemistry, 102, 152-161 (2014).
  • Dong, J., Yu, S., Yang, R., Li, H., Guo, H., Zhao, H., Wang, S. and Chen, W. A simple and precise method for direct measurement of fractional esterification rate of high density lipoprotein cholesterol by high performance liquid chromatography. Clin. Chem. Lab. Med., 52, 557-564 (2014).
  • Ecker, J. and Liebisch, G. Application of stable isotopes to investigate the metabolism of fatty acids, glycerophospholipid and sphingolipid species. Prog. Lipid Res., 54, 14-31 (2014).
  • Edwards, G., Aribindi, K., Guerra, Y., Lee, R.K. and Bhattacharya, S.K. Phospholipid profiles of control and glaucomatous human aqueous humor. Biochimie, 101, 232-247 (2014).
  • Etzbach, L., Plaza, A., Garcia, R., Baumann, S. and Muller, R. Cystomanamides: structure and biosynthetic pathway of a family of glycosylated lipopeptides from myxobacteria. Org. Letts, 16, 2414-2417 (2014).
  • Fabisiak, J.P., Tyurina, Y.Y., Tyurin, V.A. and Kagan, V.E. Quantification of selective phosphatidylserine oxidation during apoptosis. Methods Mol. Biol., 1105, 603-611 (2014).
  • Fan, M., Low, H.S., Zhou, H., Wenk, M.R. and Wong, L. LipidGO: database for lipid-related GO terms and applications. Bioinformatics, 30, 1043-1044 (2014).
  • Fedosov, S.N., Fernandes, N.A. and Firdaus, M.Y. Analysis of oil-biodiesel samples by high performance liquid chromatography using the normal phase column of new generation and the evaporative light scattering detector. J. Chromatogr. A, 1326, 56-62 (2014).
  • Fernandes, A.M.A.P., Fernandes, G.D., Barrera-Arellano, D., de Sa, G.F., Lins, R.D., Eberlin, M.N. and Alberici, R.M. Desorption/ionization efficiencies of triacylglycerols and phospholipids via EASI-MS. J. Mass Spectrom., 49, 335-341 (2014).
  • Fernandez-Peralbo, M.A., Vera, C.F., Priego-Capote, E. and de Castro, M.D.L. Stable isotopic internal standard correction for quantitative analysis of hydroxyeicosatetraenoic acids (HETEs) in serum by on-line SPE-LC-MS/MS in selected reaction monitoring mode. Talanta, 126, 170-176 (2014).
  • Firl, N., Kienberger, H. and Rychlik, M. Validation of the sensitive and accurate quantitation of the fatty acid distribution in bovine milk. Int. Dairy J., 35, 139-144 (2014).
  • Fu, M., Xu, W., Lu, Q., Pan, G. and Varga, C. Evaluation and optimization of high-performance liquid chromatography coupled with high-resolution mass spectrometry for phospholipid quantitation. Rapid Commun. Mass Spectrom., 28, 811-821 (2014).
  • Fuchs, B. Mass spectrometry and inflammation-MS methods to study oxidation and enzyme-induced changes of phospholipids. Anal. Bioanal. Chem., 406, 1291-1306 (2014).
  • Fuller, M., Duplock, S., Hein, L.K., Rigat, B.A. and Mahuran, D.J. Liquid chromatography/electrospray ionisation-tandem mass spectrometry quantification of G(M2) gangliosides in human peripheral cells and plasma. Anal. Biochem., 458, 20-26 (2014).
  • Georgiou, C.A., Constantinou, M.S. and Kapnissi-Christodoulou, C.P. Sample preparation: A critical step in the analysis of cholesterol oxidation products. Food Chem., 145, 918-926 (2014).
  • Gertz, C. and Behmer, D. Application of FT-NIR spectroscopy in assessment of used frying fats and oils. Eur. J. Lipid Sci. Technol., 116, 756-762 (2014).
  • Ghiulai, R.M., Sarbu, M., Vukelic, Z., Ilie, C. and Zamfir, A.D. Early stage fetal neocortex exhibits a complex ganglioside profile as revealed by high resolution tandem mass spectrometry. Glycoconjugate J., 31, 231-245 (2014).
  • Goss, V., Cazenave-Gassiot, A., Pringle, A. and Postle, A. Investigation of isoprostanes as potential biomarkers for Alzheimer's disease using chiral LC-MS/MS and SFC-MS/MS. Curr. Anal. Chem., 10, 121-131 (2014).
  • Goto, T., Terada, Na., Inoue, T., Nakayama, K., Okada, Y., Yoshikawa, T., Miyazaki, Y., Uegaki, M., Sumiyoshi, S., Kobayashi, T., Kamba, T., Yoshimura, K. and Ogawa, O. The expression profile of phosphatidylinositol in high spatial resolution imaging mass spectrometry as a potential biomarker for prostate cancer. PLOS One, 9, e90242 (2014).
  • Gouveia-Figueira, S. and Nording, M.L. Development and validation of a sensitive UPLC-ESI-MS/MS method for the simultaneous quantification of 15 endocannabinoids and related compounds in milk and other biofluids. Anal. Chem., 86, 1186-1195 (2014).
  • Griesinger, H., Fuchs, B., Suss, R., Matheis, K., Schulz, M. and Schiller, J. Stationary phase thickness determines the quality of thin-layer chromatography/matrix-assisted laser desorption and ionization mass spectra of lipids. Anal. Biochem., 451, 45-47 (2014).
  • Guil-Guerrero, J.L. Common mistakes about fatty acids identification by gas-liquid chromatography. J. Food Comp. Anal., 33, 153-154 (2014).
  • Hailat, I. and Helleur, R.J. Direct analysis of sterols by derivatization matrix-assisted laser desorption/ionization time-of-flight mass spectrometry and tandem mass spectrometry. Rapid Commun. Mass Spectrom., 28, 149-158 (2014).
  • Hailat, I. and Helleur, R. Identification of fatty acid steryl esters in margarine and corn using direct flow injection ESI-MSn ion trap-mass spectrometry. Int. J. Mass Spectrom., 362, 24-31 (2014).
  • Hebbar, S., Schulz, W.D., Sauer, U. and Schwudke, D. Laser capture microdissection coupled with on-column extraction LC-MSn enables lipidomics of fluorescently labeled Drosophila neurons. Anal. Chem., 86, 5345-5352 (2014).
  • Heinzelmann, S.M., Bale, N.J., Hopmans, E.C., Damsté, J.S.S., Schouten, S. and van der Meer, M.T.J. Critical assessment of glyco- and phospholipid separation by using silica chromatography. Appl. Environm. Microbiol., 80, 360-365 (2014).
  • Himes, S.K., Concheiro, M., Scheidweiler, K.B. and Huestis, M.A. Validation of a novel method to identify in utero ethanol exposure: simultaneous meconium extraction of fatty acid ethyl esters, ethyl glucuronide, and ethyl sulfate followed by LC-MS/MS quantification. Anal. Bioanal. Chem., 406, 1945-1955 (2014).
  • Hsu, F.-F., Kuhlmann, F.M., Turk, J. and Beverley, S.M. Multiple-stage linear ion-trap with high resolution mass spectrometry towards complete structural characterization of phosphatidylethanolamines containing cyclopropane fatty acyl chain in Leishmania infantum. J. Mass Spectrom., 49, 201-209 (2014).
  • Huang, Q., Zhou, X., Liu, D., Xin, B., Cechner, K., Wang, H. and Zhou, A. A new liquid chromatography/tandem mass spectrometry method for quantification of gangliosides in human plasma. Anal. Biochem., 455, 26-34 (2014).
  • Ishida, N. A method for simultaneous analysis of phytosterols and phytosterol esters in tobacco leaves using non aqueous reversed phase chromatography and atmospheric pressure chemical ionization mass spectrometry detector. J. Chromatogr. A, 1340, 99-108 (2014).
  • Ishikawa, T., Imai, H. and Maki, K.-Y. Development of an LC-MS/MS method for the analysis of free sphingoid bases using 4-fluoro-7-nitrobenzofurazan (NBD-F). Lipids, 49, 295-304 (2014).
  • Jain, M., Ngoy, S., Sheth, S.A., Swanson, R.A., Rhee, E.P., Liao, R.., Clish, C.B., Mootha, V.K. and Nilsson, R. A systematic survey of lipids across mouse tissues. Am. J. Physiol. Endocrinol. Metab., 306, E854-868 (2014).
  • Jackson, S.N., Baldwin, K., Muller, L., Womack, V.M., Schultz, J.A., Balaban, C. and Woods, A.S. Imaging of lipids in rat heart by MALDI-MS with silver nanoparticles. Anal. Bioanal. Chem., 406, 1377-1386 (2014).
  • Jaskolla, T.W., Onischke, K. and Schiller, J. 2,5-Dihydroxybenzoic acid salts for matrix-assisted laser desorption/ionization time-of-flight mass spectrometric lipid analysis: Simplified spectra interpretation and insights into gas-phase fragmentation. Rapid Commun. Mass Spectrom., 28, 1353-1363 (2014).
  • Jesionowska, A., Cecerska, E. and Dolegowska, B. Methods for quantifying lysophosphatidic acid in body fluids: A review. Anal. Biochem., 453, 38-43 (2014).
  • Kaffarnik, S., Preuss, S. and Vetter, W. Direct determination of flavor relevant and further branched-chain fatty acids from sheep subcutaneous adipose tissue by gas chromatography with mass spectrometry. J. Chromatogr. A, 1350, 92-101 (2014).
  • Kaffarnik, S., Schroder, M., Lehnert, K., Baars, T. and Vetter, W. Delta C-13 values and phytanic acid diastereomer ratios: combined evaluation of two markers suggested for authentication of organic milk and dairy products. Eur. Food Res. Technol., 238, 819-827 (2014).
  • Kaftan, F., Vrkoslav, V., Kynast, P., Kulkarni, P., Bocker, S., Cvacka, J., Knaden, M. and Svatos, A. Mass spectrometry imaging of surface lipids on intact Drosophila melanogaster flies. J. Mass Spectrom., 49, 223-232 (2014).
  • Kalo, P. Regio- and stereospecific analysis of diacylglycerols and monoacylglycerols. Lipid Technology, 26, 63-66 (2014).
  • Karas, M.A. and Russa, R. Ether-type moieties in the lipid part of glycoinositolphospholipids of Acanthamoeba rhysodes. Lipids, 49, 369-383 (2014).
  • Kielkowska, A., Niewczas, I., Anderson, K.E., Durrant, T.N., Clark, J.., Stephens, L.R. and Hawkins, P.T. A new approach to measuring phosphoinositides in cells by mass spectrometry. Adv. Biol. Reg., 54, 131-141 (2014).
  • Kilulya, K.F., Msagati, T.A.M. and Mamba, B.B. Ionic liquid-based extraction of fatty acids from blue-green algal cells enhanced by direct transesterification and determination using GC x GC-TOFMS. Chromatographia, 77, 479-486 (2014).
  • Kim, I.C., Bang, G., Lee, J.H., Kim, K.P., Kim, Y.H., Kim, H.K. and Chung, J. Low C24-OH and C22-OH sulfatides in human renal cell carcinoma. J. Mass Spectrom., 49, 409-416 (2014).
  • Kim, S.J., Back, S.H., Koh, J.M. and Yoo, H.J. Quantitative determination of major platelet activating factors from human plasma. Anal. Bioanal. Chem., 406, 3111-3118 (2014).
  • Kloos, D.P., Gay, E., Lingeman, H., Bracher, F., Muller, C., Mayboroda, O.A., Deelder, A.M., Niessen, W.M.A. and Giera, M. Comprehensive gas chromatography-electron ionisation mass spectrometric analysis of fatty acids and sterols using sequential one-pot silylation: quantification and isotopologue analysis. Rapid Commun. Mass Spectrom., 28, 1507-1514 (2014).
  • Klug, L., Tarazona, P., Gruber, C., Grillitsch, K., Gasser, B., Troetzmueller, M., Koefeler, H., Leitner, E., Feussner, I., Mattanovich, D., Altmann, F. and Daum, G. The lipidome and proteome of microsomes from the methylotrophic yeast Pichia pastoris. Biochim. Biophys. Acta, 1841, 215-226 (2014).
  • Knittelfelder, O.L., Weberhofer, B.P., Eichmann, T.O., Kohlwein, S.D. and Rechberger, G.N. A versatile ultra-high performance LC-MS method for lipid profiling. J. Chromatogr. B, 951-952, 119-128 (2014).
  • Kongbonga, Y.G.M., Ghalila, H., Onana, M.B. and Ben Lakhdar, Z. Classification of vegetable oils based on their concentration of saturated fatty acids using laser induced breakdown spectroscopy (LIBS). Food Chem., 147, 327-331 (2014).
  • Kosinska, M.K., Liebisch, G., Lochnit, G., Wilhelm, J., Klein, H., Kaesser, U., Lasczkowski, G., Rickert, M., Schmitz, G. and Steinmeyer, J. Sphingolipids in human synovial fluid - a lipidomic study. PloS One, 9, e91769 (2014).
  • Kouzel, I.U., Pirkl, A., Pohlentz, G., Soltwisch, J., Dreisewerd, K., Karch, H. and Muething, J. Progress in detection and structural characterization of glycosphingolipids in crude lipid extracts by enzymatic phospholipid disintegration combined with thin-layer chromatography immunodetection and IR-MALDI mass spectrometry. Anal. Chem., 86, 1215-1222 (2014).
  • Kraft, J., Kramer, J. K. G., Hernandez, M., Letarte, J., Aldai, N., Sandercole, V., Mohammed, R., Mayer, F., Mossoba, M.M. and Delmonte, P. Silver ion solid-phase extraction chromatography for the analysis of trans fatty acids. Lipid Technology, 26, 39-42 (2014).
  • Kuksis, A. and Pruzanski, W. Generation of phosphatidylcholine hydroperoxides and phosphatidylcholine isoprostanes during ultracentrifugation and storage of lipoproteins. Lipid Technology, 26, 11-14 (2014).
  • Kulsing, C., Nolvachai, Y., Zeng, A.N.X., Chin, S.T., Mitrevski, B. and Marriott, P.J. From molecular structures of ionic liquids to predicted retention of fatty acid methyl esters in comprehensive two-dimensional gas chromatography. Chempluschem, 79, 790-797 (2014).
  • Lam, S.M., Tong, L., Duan, X., Petznick, A., Wenk, M.R. and Shui, G. Extensive characterization of human tear fluid collected using different techniques unravels the presence of novel lipid amphiphiles. J. Lipid Res., 55, 289-298 (2014).
  • Lanekoff, I., Thomas, M. and Laskin, J. Shotgun approach for quantitative imaging of phospholipids using nanospray desorption electrospray ionization mass spectrometry. Anal. Chem., 86, 1872-1880 (2014).
  • Lesellier, E., Latos, A. and de Oliveira, A.L. Ultra high efficiency/low pressure supercritical fluid chromatography with superficially porous particles for triglyceride separation. J. Chromatogr. A, 1327, 141-148 (2014).
  • Li, M., Baughman, E., Roth, M.R., Han, X., Welti, R. and Wang, X. Quantitative profiling and pattern analysis of triacylglycerol species in Arabidopsis seeds by electrospray ionization mass spectrometry. Plant J., 77, 160-172 (2014).
  • Li, M., Yang, L., Bai, Y. and Liu, H. Analytical methods in lipidomics and their applications. Anal. Chem., 86, 161-175 (2014).
  • Li, Q., Zhang, S., Berthiaume, J.M., Simons, B. and Zhang, G.-F. Novel approach in LC-MS/MS using MRM to generate a full profile of acyl-CoAs: discovery of acyl-dephospho-CoAs. J. Lipid Res., 55, 592-602 (2014).
  • Li, S., Xu, J., Chen, J., Chen, J., Zhou, C. and Yan, X. Structural elucidation of co-eluted triglycerides in the marine diatom model organism Thalassiosira pseudonana by ultra-performance liquid chromatography/quadrupole time-of-flight mass spectrometry. Rapid Commun. Mass Spectrom., 28, 245-255 (2014).
  • Li, S., Xu, J.L., Chen, J., Chen, J.J., Zhou, C.X. and Yan, X.J. Characterization of the triacylglycerol profile in marine diatoms by ultra performance liquid chromatography coupled with electrospray ionization-quadrupole time-of-flight mass spectrometry. J. Appl. Phycol., 26, 1389-1398 (2014).
  • Liang, L.-F., Wang, T., Cai, Y.-S., He, W.-F., Sun, P., Li, Y.-F., Huang, Q., Taglialatela-Scafati, O., Wang, H.-Y. and Guo, Y.-W. Brominated polyunsaturated lipids from the Chinese sponge Xestospongia testudinaria as a new class of pancreatic lipase inhibitors. Eur. J. Med. Chem., 79, 290-297 (2014).
  • Lin, C.C., Wasta, Z. and Mjøs, S.A. Evaluation of the retention pattern on ionic liquid columns for gas chromatographic analyses of fatty acid methyl esters. J. Chromatogr. A, 1350, 83-91 (2014).
  • Ma, X. and Xia, Y. Pinpointing double bonds in lipids by Paterno-Buchi reactions and mass spectrometry. Ang. Chem. Int. Ed., 53, 10, 2592-2596 (2014).
  • Martinez, J. and de Aguiar, A.C. Extraction of triacylglycerols and fatty acids using supercritical fluids – review. Curr. Anal. Chem., 10, 67-77 (2014).
  • Matysik, S., Schmitz, G., Bauer, S., Kiermaier, J. and Matysik, F.-M. Potential of gas chromatography-atmospheric pressure chemical ionization-time-of-flight mass spectrometry for the determination of sterols in human plasma. Biochem. Biophys. Res. Commun., 446, 751-755 (2014).
  • McDowell, G.S.V., Blanchard, A.P., Taylor, G.P., Figeys, D., Fai, S. and Bennett, S.A.L. Predicting glycerophosphoinositol identities in lipidomic datasets using VaLID (Visualization and Phospholipid Identification)-an online bioinformatic search engine. Biomed Res. Int., 818670 (2014).
  • Meador, T.B.., Zhu, C.., Elling, F.J., Koenneke, M. and Hinrichs, K.-U. Identification of isoprenoid glycosidic glycerol dibiphytanol diethers and indications for their biosynthetic origin. Org. Geochem., 69, 70-75 (2014).
  • Meng, D., Zhang, Q., Gao, X., Wu, S. and Lin, G. LipidMiner: a software for automated identification and quantification of lipids from multiple liquid chromatography/mass spectrometry data files. Rapid Commun. Mass Spectrom., 28, 981-985 (2014).
  • Meng, X., Pan, Q., Ding, Y. and Jiang, L. Rapid determination of phospholipid content of vegetable oils by FTIR spectroscopy combined with partial least-square regression. Food Chem., 147, 272-278 (2014).
  • Meng, X., Ye, Q., Pan, Q., Ding, Y., Wei, M., Liu, Y. and van de Voort, F.R. Total phospholipids in edible oils by in-vial solvent extraction coupled with FTIR analysis. J. Agric. Food Chem., 62, 3101-3107 (2014).
  • Mezzar, S., de Schryver, E. and Van Veldhoven, P.P. RP-HPLC-fluorescence analysis of aliphatic aldehydes: application to aldehyde-generating enzymes HACL1 and SGPL1. J. Lipid Res., 55, 573-582 (2014).
  • Mikova, R., Vrkoslav, V., Hanus, R., Hakova, E., Habova, Z., Dolezal, A., Plavka, R., Coufal, P. and Cvacka, J. Newborn boys and girls differ in the lipid composition of Vernix caseosa. PLOS One, 9, e99173 (2014).
  • Montealegre, C., Verardo, V., Luisa Marina, M. and Caboni, M.F. Analysis of glycerophospho- and sphingolipids by CE. Electrophoresis, 35, 779-792 (2014).
  • Mori, N., Fukano, Y., Arita, R., Shirakawa, R., Kawazu, K., Nakamura, M. and Amano, S. Rapid identification of fatty acids and (O-acyl)-omega-hydroxy fatty acids in human meibum by liquid chromatography/high-resolution mass spectrometry. J. Chromatogr. A, 1347, 129-136 (2014).
  • Mubiru, E., Shrestha, K., Papastergiadis, A. and De Meulenaer, B. Development and validation of a gas chromatography-flame ionization detection method for the determination of epoxy fatty acids in food matrices. J. Agric. Food Chem., 13, 2982-2988 (2014).
  • Nakamura, Y., Fukuda, Y., Shimizu, K. and Ando, Y. Occurrence and distribution of cis-7-icosenoic acid in the lipids of Japanese marine fish, shellfish, and crustaceans. Fisheries Sci., 80, 613-620 (2014).
  • Narayanaswamy, P., Shinde, S., Sulc, R., Kraut, R., Staples, G., Thiam, C.H., Grimm, R., Sellergren, B., Torta, F. and Wenk, M.R. Lipidomic 'deep profiling': an enhanced workflow to reveal new molecular species of signaling lipids. Anal. Chem., 86, 3043-3047 (2014).
  • Narouz, M.R., Soliman, S.E., Fridgen, T.D., Nashed, M.A. and Banoub, J.H. High-energy collision-induced dissociation tandem mass spectrometry of regioisomeric lactose palmitic acid monoesters using matrix-assisted laser desorption/ionization. Rapid Commun. Mass Spectrom., 28, 169-177 (2014).
  • Nilsson, A.K., Johansson, O.N., Fahlberg, P., Steinhart, F., Gustavsson, M.B., Ellerstrom, M. and Andersson, M.X. Formation of oxidized phosphatidylinositol and 12-oxo-phytodienoic acid containing acylated phosphatidylglycerol during the hypersensitive response in Arabidopsis. Phytochemistry, 101, 65-75 (2014).
  • Nimptsch, A., Pyttel, S., Paasch, U., Mohr, C., Heinrich, J.-Mi. and Schiller, J. A MALDI MS investigation of the lysophosphatidylcholine/phosphatidylcholine ratio in human spermatozoa and erythrocytes as a useful fertility marker. Lipids, 49, 287-293 (2014).
  • Okusa, K., Iwasaki, Y., Kuroda, I., Miwa, S., Ohira, M., Nagai, T., Mizobe, H., Gotoh, N., Ikegami, T., McCalley, D.V. and Tanaka, N. Effect of pressure on the selectivity of polymeric C18 and C30 stationary phases in reversed-phase liquid chromatography. Increased separation of isomeric fatty acid methyl esters, triacylglycerols, and tocopherols at high pressure. J. Chromatogr. A, 1339, 86-95 (2014).
  • Olsson, P., Holmback, J., Nilsson, U. and Herslof, B. Separation and identification of lipid classes by normal phase LC-ESI/MS/MS on a cyanopropyl column. Eur. J. Lipid Sci. Technol., 116, 653-658 (2014).
  • Ottria, R., Ravelli, A., Gigli, F. and Ciuffreda, P. Simultaneous ultra-high performance liquid chromatography-electrospray ionization-quadrupole-time of flight mass spectrometry quantification of endogenous anandamide and related N-acylethanolamides in bio-matrices. J. Chromatogr. B, 958, 83-89 (2014).
  • Papan, C., Penkov, S., Herzog, R., Thiele, C., Kurzchalia, T. and Shevchenko, A. Systematic screening for novel lipids by shotgun lipidomics. Anal. Chem., 86, 2703-2710 (2014).
  • Park, H., Zhou, Y. and Costello, C.E. Direct analysis of sialylated or sulfated glycosphingolipids and other polar and neutral lipids using TLC-MS interfaces. J. Lipid Res., 55, 773-781 (2014).
  • Pham, H.T. and Julian, R.R. Mass shifting and radical delivery with crown ether attachment for separation and analysis of phosphatidylethanolamine lipids. Anal. Chem., 86, 3020-3027 (2014).
  • Pham, H.T., Maccarone, A.T., Thomas, M.C., Campbell, J.L., Mitchell, T.W. and Blanksby, S.J. Structural characterization of glycerophospholipids by combinations of ozone- and collision-induced dissociation mass spectrometry: the next step towards ‘top-down lipidomics.’ Analyst, 139, 204-214 (2014).
  • Rao, W., Mitchell, D., Licence, P. and Barrett, D.A. The use of dicationic ion-pairing compounds to enhance the ambient detection of surface lipids in positive ionization mode using desorption electrospray ionisation mass spectrometry. Rapid Commun. Mass Spectrom., 28, 616-624 (2014).
  • Rezanka, T., Nedbalova, L., Prochazkova, L. and Sigler, K. Lipidomic profiling of snow algae by ESI-MS and silver-LC/APCI-MS. Phytochemistry, 100, 34-42 (2014).
  • Rimnacova, L., Husek, P. and Simek, P. A new method for immediate derivatization of hydroxyl groups by fluoroalkyl chloroformates and its application for the determination of sterols and tocopherols in human serum and amniotic fluid by gas chromatography-mass spectrometry. J. Chromatogr. A, 1339, 154-167 (2014).
  • Roberg-Larsen, H., Lund, K., Vehus, T., Solberg, N., Vesterdal, C., Misaghian, D., Olsen, P.A., Krauss, S., Wilson, S.R. and Lundanes, E. Highly automated nano-LC/MS-based approach for thousand cell-scale quantification of side chain-hydroxylated oxysterols. J. Lipid Res., 55, 1531-1536 (2014).
  • Roberts, L.D., West, J.A., Vidal-Puig, A. and Griffin, J.L. Methods for performing lipidomics in white adipose tissue. Methods in Enzymology, 538, 211-231 (2014).
  • Sakurai, K., Moriyama, T. and Sato, N. Detailed identification of fatty acid isomers sheds light on the probable precursors of triacylglycerol accumulation in photoautotrophically grown Chlamydomonas reinhardtii. Eukaryotic Cell, 13, 256-266 (2014).
  • Saliu, F., Degano, I. and Colombini, M.P. Identification of triacylglycerols in archaelogical organic residues by core-shell reversed phase liquid chromatography coupled to electrospray ionization-quadrupole-time of flight mass spectrometry. J. Chromatogr. A, 1346, 78-87 (2014).
  • Santas, J., Guzman, Y.J., Guardiola, F., Rafecas, M. and Bou, R. High-throughput analysis of lipid hydroperoxides in edible oils and fats using the fluorescent reagent diphenyl-1-pyrenylphosphine. Food Chem., 162, 235-241 (2014).
  • Sarafian, M.H., Gaudin, M., Lewis, M.R., Martin, F.P., Holmes, E., Nicholson, J.K. and Dumas, M.E. Objective set of criteria for optimization of sample preparation procedures for ultra-high throughput untargeted blood plasma lipid profiling by ultra performance liquid chromatography-mass spectrometry. Anal. Chem., 86, 5766-5774 (2014).
  • Scholz, B., Barnsteiner, A., Feist, K., Schmid, W. and Engel, K.H. Analysis of phytostanyl fatty acid esters in enriched foods via UHPLC-APCI-MS. J. Agric. Food Chem., 62, 4268-4275 (2014).
  • Schroeder, M., Lutz, Nina L. and Vetter, W. GC/MS and H-1-NMR analysis of phytanic acid synthesized from natural trans-phytol and a synthetic phytol standard. Chromatographia, 77, 379-385 (2014).
  • Schuchardt, J.P., Schneider, I., Willenberg, I., Yang, J., Hammock, B.D., Hahn, A. and Schebb, N.H. Increase of EPA-derived hydroxy, epoxy and dihydroxy fatty acid levels in human plasma after a single dose of long-chain omega-3 PUFA. Prostaglandins Other Lipid Mediators, 109, 23-31 (2014).
  • Sele, V., Sloth, J.J., Holmelid, B., Valdersnes, S., Skov, K. and Amlund, H. Arsenic-containing fatty acids and hydrocarbons in marine oils - determination using reversed-phase HPLC-ICP-MS and HPLC-qTOF-MS. Talanta, 121, 89-96 (2014).
  • Shaik, J.S.B., Miller, T.M., Graham, S.H., Manole, M.D. and Poloyac, S.M. Rapid and simultaneous quantitation of prostanoids by UPLC-MS/MS in rat brain. J. Chromatogr. B, 945, 207-216 (2014).
  • Shin, J.-H., Shon, J.C., Lee, K., Kim, S., Park, C.S., Choi, E.H., Lee, C.H., Lee, H.S. and Liu, K.-H. A lipidomic platform establishment for structural identification of skin ceramides with non-hydroxyacyl chains. Anal. Bioanal. Chem., 406, 1917-1932 (2014).
  • Sigruener, A., Kleber, M.E., Heimerl, S.., Liebisch, G.., Schmitz, G. and Maerz, W. Glycerophospholipid and sphingolipid species and mortality: the Ludwigshafen risk and cardiovascular health (LURIC) study. PLOS One, 9, e85724 (2014).
  • Skiera, C., Steliopoulos, P., Kuballa, T., Diehl, B. and Holzgrabe, U. Determination of free fatty acids in pharmaceutical lipids by (1)H NMR and comparison with the classical acid value. J. Pharm. Biomed. Anal., 93, 43-50 (2014).
  • Solaesa, A.G., Bucio, S.L., Sanz, M.T., Beltran, S. and Rebolleda, S. Characterization of triacylglycerol composition of fish oils by using chromatographic techniques. J. Oleo Sci., 63, 449-460 (2014).
  • Son, J., Lee, G. and Cha, S. Direct analysis of triacylglycerols from crude lipid mixtures by gold nanoparticle-assisted laser desorption/ionization mass spectrometry. J. Am. Soc. Mass Spectrom., 25, 891-894 (2014).
  • Spinelli, S.L., Lannan, K.L., Casey, A.E., Croasdell, A., Curran, T.M., Henrichs, K.F., Pollock, S.J., Milne, G.A., Refaai, M.A., Francis, C.W., Phipps, R.P. and Blumberg, N. Isoprostane and isofuran lipid mediators accumulate in stored red blood cells and influence platelet function in vitro. Transfusion, 54, 1569-1579 (2014).
  • Squellerio, I., Porro, B., Songia, P., Veglia, F., Caruso, D., Tremoli, E. and Cavalca, V. Liquid chromatography-tandem mass spectrometry for simultaneous measurement of thromboxane B2 and 12(S)-hydroxyeicosatetraenoic acid in serum. J. Pharm. Biomed. Anal., 96, 256-262 (2014).
  • Stoyanovsky, D.A., Sparvero, L.J., Amoscato, A.A., He, R.R., Watkins, S., Pitt, B.R., Bayir, H. and Kagan, V.E. Improved spatial resolution of matrix-assisted laser desorption/ionization imaging of lipids in the brain by alkylated derivatives of 2,5-dihydroxybenzoic acid. Rapid Commun. Mass Spectrom., 28, 403-412 (2014).
  • Sun, C.X., Zhao, Y.Y. and Curtis, J.M. Elucidation of phosphatidylcholine isomers using two dimensional liquid chromatography coupled in-line with ozonolysis mass spectrometry. J. Chromatogr. A, 1351, 37-45 (2014).
  • Svetashev, V.I. and Imbs, A.B. Isomerization of octadecapentaenoic acid (18:5n-3) in algal lipid samples under derivatization for GC and GC-MS analysis. J. Phycol., 50, 322-327 (2014).
  • Tanaka, K., Tamiya-Koizumi, K., Yamada, M., Murate, T., Kannagi, R. and Kyogashima, M. Individual profiles of free ceramide species and the constituent ceramide species of sphingomyelin and neutral glycosphingolipid and their alteration according to the sequential changes of environmental oxygen content in human colorectal cancer Caco-2 cells. Glycoconj. J., 31, 209-219 (2014).
  • Tava, A. and Avato, P. Analysis of cyanolipids from Sapindaceae seed oils by gas chromatography–EI-mass spectrometry. Lipids, 49, 335-345 (2014).
  • Tellier, F., Maia-Grondard, A., Schmitz-Afonso, I. and Faure, J.D. Comparative plant sphingolipidomic reveals specific lipids in seeds and oil. Phytochemistry, 103, 50-58 (2014).
  • Tengku-Rozaina, T.M. and Birch, E.J. Positional distribution of fatty acids on hoki and tuna oil triglycerides by pancreatic lipase and 13C NMR analysis. Eur. J. Lipid Sci. Technol., 116, 272-281 (2014).
  • Torretta, E., Vasso, M., Fania, C., Capitanio, D., Bergante, S., Piccoli, M., Tettamanti, G., Anastasia, L. and Gelfi, C. Application of direct HPTLC-MALDI for the qualitative and quantitative profiling of neutral and acidic glycosphingolipids: The case of NEU3 overexpressing C2C12 murine myoblasts. Electrophoresis, 35, 1319-1328 (2014).
  • Triebl, A., Trotzmuller, M., Eberl, A., Hanel, P., Hartler, J. and Kofeler, H.C. Quantitation of phosphatidic acid and lysophosphatidic acid molecular species using hydrophilic interaction liquid chromatography coupled to electrospray ionization high resolution mass spectrometry . J. Chromatogr. A, 1347, 104-110 (2014).
  • Tsiafoulis, C.G., Skarlas, T., Tzamaloukas, O., Miltiadou, D. and Gerothanassis, I.P. Direct nuclear magnetic resonance identification and quantification of geometric isomers of conjugated linoleic acid in milk lipid fraction without derivatization steps: Overcoming sensitivity and resolution barriers. Anal. Chim. Acta, 821, 62-71 (2014).
  • Tyurina, Y.Y., Domingues, R.M., Tyurin, V.A., Maciel, E., Domingues, P., Amoscato, A.A., Bayir, H. and Kagan, V.E. Characterization of cardiolipins and their oxidation products by LC-MS analysis. Chem. Phys. Lipids, 179, 3-10 (2014).
  • van Amerongen, Y.F., Roy, U., Spaink, H.P., de Groot, H.J.M., Huster, D., Schiller, J. and Alia, A. Zebrafish brain lipid characterization and quantification by H-1 nuclear magnetic resonance spectroscopy and MALDI-TOF mass spectrometry. Zebrafish, 11, 240-247 (2014).
  • van Smeden, J., Boiten, W.A., Hankemeier, T., Rissmann, R., Bouwstra, J.A. and Vreeken, R.J. Combined LC/MS-platform for analysis of all major stratum corneum lipids, and the profiling of skin substitutes. Biochim. Biophys. Acta, 1841, 70-79 (2014).
  • Venegas-Venegas, E., Luis Guil-Guerrero, J., Angel Rincon-Cervera, M. and Pilar Ramos-Bueno, R. Tridocosahexaenoyl glycerol purification from docosahexaenoic acid single cell oil (DHASCO). Eur. J. Lipid Sci. Technol., 116, 266-271 (2014).
  • Wang, H.-Y.J., Wu, H.-W., Tsai, P.-J., Liu, C.B. and Zheng, Z.-F. Matrix-assisted laser desorption/ionization mass spectrometry imaging of cardiolipins in rat organ sections. Anal. Bioanal. Chem., 406, 565-575 (2014).
  • Wang, J.R., Zhang, H.Y., Yau, L.F., Mi, J.N., Lee, S., Lee, K.C., Hu, P., Liu, L. and Jiang, Z.H. Improved sphingolipidomic approach based on ultra-high performance liquid chromatography and multiple mass spectrometries with application to cellular neurotoxicity. Anal. Chem., 86, 5688-5696 (2014).
  • Wang, M., Hayakawa, J., Yang, K. and Han, X. Characterization and quantification of diacylglycerol species in biological extracts after one-step derivatization: a shotgun lipidomics approach. Anal. Chem., 86, 2146-2155 (2014).
  • Wang, X., Han, J., Pan, J. and Borchers, C.H. Comprehensive imaging of porcine adrenal gland lipids by MALDI-FTMS using quercetin as a matrix. Anal. Chem., 86, 638-646 (2014).
  • Wewer, V. and Dormann, P. Determination of sterol lipids in plant tissues by gas chromatography and Q-TOF mass spectrometry. Methods Mol. Biol., 1153, 115-133 (2014).
  • Woodcock, S.R., Salvatore, S.R., Bonacci, G., Schopfer, F.J. and Freeman, B.A. Biomimetic nitration of conjugated linoleic acid: formation and characterization of naturally occurring conjugated nitrodienes. J. Org. Chem., 79, 25-33 (2014).
  • Wu, D. and He, Y. Potential of spectroscopic techniques and chemometric analysis for rapid measurement of docosahexaenoic acid and eicosapentaenoic acid in algal oil. Food Chem., 158, 93-100 (2014).
  • Wu, D., Chen, X.J., Cao, F., Sun, D.W., He, Y. and Jiang, Y.H. Comparison of infrared spectroscopy and nuclear magnetic resonance techniques in tandem with multivariable selection for rapid determination of omega-3 polyunsaturated fatty acids in fish oil. Food Bioprocess Technol., 7, 1555-1569 (2014).
  • Xu, Y.-J. and Zhang, J. A rapid multidimensional GC-flame-ionization detector method for determination of fatty acid methyl esters. Bioanalysis, 6, 477-484 (2014).
  • Yamashita, S., Honjo, A., Aruga, M., Nakagawa, K. and Miyazawa, T. Preparation of marine plasmalogen and selective identification of molecular species by LC-MS/MS. J. Oleo Sci., 63, 423-430 (2014).
  • Yang, I., Kim, K.H., Lee, J.Y. and Moon, M.H. On-line miniaturized asymmetrical flow field-flow fractionation-electrospray ionization-tandem mass spectrometry with selected reaction monitoring for quantitative analysis of phospholipids in plasma lipoproteins. J. Chromatogr. A, 1324, 224-230 (2014).
  • Yoshinaga, K., Asanuma, M., Mizobe, H., Kojima, K., Nagai, T., Beppu, F. and Gotoh, N. Characterization of cis- and trans-octadecenoic acid positional isomers in edible fat and oil using gas chromatography-flame ionisation detector equipped with highly polar ionic liquid capillary column. Food Chem., 160, 39-45 (2014).
  • Yu, Y., Vidalino, L., Anesi, A., Macchi, P. and Guella, G. A lipidomics investigation of the induced hypoxia stress on HeLa cells by using MS and NMR techniques. Mol. Biosystems, 10, 878-890 (2014).
  • Zaima, N., Yoshioka, S., Sato, Y., Shinano, S., Ikeda, Y. and Moriyama, T. Enhanced specificity for phosphatidylcholine analysis by positive ion mode matrix-assisted laser desorption/ionization imaging mass spectrometry. Rapid Commun. Mass Spectrom., 28, 1453-1458 (2014).
  • Zemski Berry, K.A., Gordon, W.C., Murphy, R.C. and Bazan, N.G. Spatial organization of lipids in the human retina and optic nerve by MALDI imaging mass spectrometry. J. Lipid Res., 55, 504-515 (2014).
  • Zhang, H.X., Smith, M.A. and Purves, R.W. Optimization of triacylglycerol-estolide analysis by matrix-assisted laser desorption/ionization-mass spectrometry. J. Am. Oil Chem. Soc., 91, 905-915 (2014).
  • Zhang, Y., Qiu, L., Wang, Y., Qin, X. and Li, Z. High-throughput and high-sensitivity quantitative analysis of serum unsaturated fatty acids by chip-based nanoelectrospray ionization-Fourier transform ion cyclotron resonance mass spectrometry: Early stage diagnostic biomarkers of pancreatic cancer. Analyst, 139, 1697-1706 (2014).
  • Zhou, Q., Gao, B.Y., Zhang, X., Xu, Y.W., Shi, H.M. and Yu, L.L. Chemical profiling of triacylglycerols and diacylglycerols in cow milk fat by ultra-performance convergence chromatography combined with a quadrupole time-of-flight mass spectrometry. Food Chem., 143, 199-204 (2014).
  • Zhou, Y., Park, H., Kim, P., Jiang, Y. and Costello, C.E. Surface oxidation under ambient air-not only a fast and economical method to identify double bond positions in unsaturated lipids but also a reminder of proper lipid processing. Anal. Chem., 86, 5697-5705 (2014).
  • Zhu, C., Meador, T.B., Dummann, W. and Hinrichs, K.-U. Identification of unusual butanetriol dialkyl glycerol tetraether and pentanetriol dialkyl glycerol tetraether lipids in marine sediments. Rapid Commun. Mass Spectrom., 28, 332-338 (2014).
  • Zhu, C., Yoshinaga, M.Y., Peters, C.A., Liu, X.-L., Elvert, M. and Hinrichs, K.-U. Identification and significance of unsaturated archaeal tetraether lipids in marine sediments. Rapid Commun. Mass Spectrom., 28, 1144-1152 (2014).

Updated September 2, 2014