Chamorro L et al., 2013, Quantitative profile of lipid classes in blood by normal phase chromatography with evaporative light scattering detector application in the detection of lipid class abnormalities in liver cirrhosis: Clin Chim Acta, v. 421, p. 132-9.
Christie WW, 1988, The analysis of lipids with special reference to milk fat, in Recent advances in chemistry and technology of fats and oils: London, Elsevier Applied Sci, p. 57-78.
Christie WW, 1992, Detectors for high-performance liquid chromatography of lipids with special reference to evaporative light-scattering detection, in Advances in lipid methodology-one: Ayr, Scotland, The oily Press, p. 239-271.
Christie WW, 1987, High performance liquid chromatography and lipids, a practical guide, Oxford, Pergamon Press.
Christie WW, 1996, Separation of phospholipid classes by high-performance liquid chromatography, inAdvances in lipid methodology-Three: Dundee, The oily Press, p. 77-107.
Deschamps FS et al., 2001, Response Enhancement for the Evaporative Light Scattering Detection for the Analysis of Lipid Classes and Molecular Species, Chromatographia, 54, 607-611
Donot F et al., 2016. Rapid analysis and quantification of major neutral lipid species and fress fatty acids by HPLC-ELSD from microalgae: Eur J Lipid Sci Technol, v. 118, p. 1550-6
Dreux M, Lafosse M, Morin-Allory L, 1996, The evaporative light scattering detector – A universal instrument for non volatile solutes on LC and SFC: LC.GC Int, v. 9, p. 148-156.
Lucena R et al., 2007, Evaporative light scattering detection trends in its analytical uses: Anal Bioanal Chem, v. 388, p. 1663-1672
Moreau RA, 2006, The analysis of lipids via HPLC with a charged aerosol detector: Lipids, v. 41, p. 727-734
Moreau RA, 2009, Lipid analysis via HPLC with a charged aerosol detector: Lipid Technol, v. 21, p. 191-4
Nikolova-Damyanova B, 1992, Silver ion chromatography and lipids, in Advances in lipid methodology-one: Ayr, Scotland, The Oily Press, p. 181-237.
Plante M et al., 2010, The Use of Charged Aerosol Detection with HPLC for the Measurement of Lipids: Methods in Molecular Biology, 2010, v. 579, Part 2, p. 469-482.
Shukla V K S, 1988, Recent advances in the high performance liquid chromatography of lipids: Prog Lipid Res, v. 27, p. 5-38.
Van der Meeren P, Vanderdeelen J, Baert L, 1992, Phospholipid analysis by HPLC: Food Analysis by HPLC, v. Nollet LML Ed, Marcel Dekker inc NY, p. 241-258.
Technology
Bruns A, Waldhoff H, Winkle W, 1989, Applications of HPLC with evaporative light scattering detection in fat and carbohydrate chemistry: Chromatographia, v. 27, p. 340-342.
Charlesworth JM, 1978, Evaporative analyzer as a mass detector for liquid chromatography: Anal Chem, v. 50, p. 1414-1420.
Christie WW, 1992, Detectors for high-performance liquid chromatography of lipids with special reference to evaporative light-scattering detection, in Advances in lipid methodology-one: Ayr, Scotland, The oily Press, p. 239-271.
Deschamps FS, et al, 2001, Response enhancement for the evaporative light scattering detection for the analysis of lipid classes and molecular species: Chromatographia, v. 54, p. 607-611.
Deschamps FS, et al, 2002, Mechanism of response enhancement in evaporative light scattering detection with the addition of triethylamine and formic acid: Analyst, v.127, p. 35-41.
Dreux M, Lafosse M, Morin-Allory L, 1996, The evaporative light scattering detector – A universal instrument for non volatile solutes on LC and SFC: LC.GC Int, v. 9, p. 148-156.
Gatti, R, R Gotti, D Bonazzi, V Cavrini, 1996, A comparative evaluation of three detectors in the HPLC analysis of sodium fusidate: Farmaco, v. 51, p. 115-9.
Harlesworth JM, 1978, Evaporative analyzer as a mass detector for liquid chromatography: Anal Chem, v. 50, p. 1414-1420.
Hazotte A et al., 2007, High-temperature micro liquid chromatography for lipid molecular species analysis with evaporative light scattering detection: J Chromatogr A, v. 1140, p.131-9.
Héron, S, A Tchapla, 1999, Comparison of the responses of triacylglycerols with an evaporative visible scattering detector used in conventional, micro and capillary liquid chromatography: J Chromatogr A, v. 848, p. 95-104.
Mathews, BT, et al., 2004, Improving quantitative measurements for the evaporative light scattering detector: Chromatographia, v. 60, p. 625-633.
Oppenheimer LE, Mourey TH, 1985, Examination of the concentration response of evaporative light-scattering mass detectors: J Chromatogr, v. 323, p. 297-304.
Orellana-Coca C et al., 2005, Analysis of fatty acid epoxidation by high performance liquid chromatography coupled with evaporative light scattering detection and mass spectrometry: Chem Phys Lipids, v. 135, p. 189-199
Righezza M, Guiochon G, 1988, Effects of the nature of the solvent and solutes on the response of a light-scattering detector: J Liquid Chromatogr, v. 11, p. 1967-2004.
Stolyhwo A, Colin H, Guiochon G, 1985, Analysis of triglycerides in oils and fats by liquid chromatography with the laser light scattering detector: Anal Chem, v. 57, p. 1342-1354.
Stolyhwo A, et al, 1983, Use of light scattering as a detector principle in liquid chromatography: J Chromatogr, v. 265, p. 1-18.
Fatty acids
Bravi E et al., 2006, Fatty acids by high-performance liquid chromatography and evaporative light-scattering detector : J Chromatogr A, v. 1134, p. 210-4
Christie WW, 1986, Separation of lipid classes by high-performance liquid chromatography with the “mass detector”: J Chromatogr, v. 361, p. 398-399.
Christie WW, Brechany EY, Stefanov K, 1988, Silver high-performance liquid chromatography and gas chromatography-mass spectrometry in the analysis of complex fatty acid mixtures : application to marine invertebrates: Chem Phys Lipids, v. 46, p. 127-135.
Christie WW, Hunter ML, 1985, Separation of molecular species of phosphatidylcholine by high-performance liquid chromatography on a PLRP-S column: J Chromatogr, v. 325, p. 473-476.
Conforti, FD, C H Harris, J T Rinehart, 1993, High-Performance Liquid Chromatographic Analysis of Wheat Flour Lipids Using an Evaporative Light Scattering Detector. J Chromatogr 645, p. 83-88.
Donot F et al., 2016. Rapid analysis and quantification of major neutral lipid species and fress fatty acids by HPLC-ELSD from microalgae: Eur J Lipid Sci Technol, v. 118, p. 1550-6
El-Hamdy, AH, W W Christie, 1993, Separation of Non-Polar Lipids by High Performance Liquid Chromatography on a Cyanopropyl Column. HRC – J High Resol Chromatogr 16, 55-57.
Guo H et al., 2012, Determination of underivatized long chain fatty acids using HPLC with an evaporative light-scattering detector. JAOCS v. 89, p.183-7
Holcapek, M, P Jandera, J Fischer, B Prokes, 1999, Analytical monitoring of the production of biodiesel by high- performance liquid chromatography with various detection methods: J Chromatogr A, v. 858, p. 13-31.
Hopia, AI, V I Piironen, P E Koivistoinen, L E T Hyvonen, 1992, Analysis of Lipid Classes by Solid-Phase Extraction and High-Performance Size-Exclusion Chromatography. J Amer Oil Chem Soc, v. 69, 772-776.
Letter, WS, 1992, A Rapid Method for Phospholipid Class Separation by HPLC Using an Evaporative Light-Scattering Detector: J Liquid Chromatogr, v. 15, p. 253-266.
Lutzke, BS, J M Braughler, 1990, An improved method for the identification and quantitation of biological lipids by HPLC using laser light-scattering detection: J Lipid Res, v. 31, p. 2127-30.
Mansour MP, 2005, Reversed-phase high performance liquid chromatography purification of methyl esters of V16-C28 polyunsaturated fatty acids in microalgae, including octacosaoctaenoic acid: J Chromatogr A, v. 1097, p. 54-58
Murphy, EJ, T A Rosenberger, L A Horrocks. Separation of neutral lipids by high-performance liquid chromatography: Quantification by ultraviolet, light scattering and fluorescence detection. J Chromatogr 685[1], 9-14. 1996.
Norlen, L, I Nicander, A Lundsjo, T Cronholm, B Forslind, 1998, A new HPLC-based method for the quantitative analysis of inner stratum corneum lipids with special reference to the free fatty acid fraction: Arch Dermatol Res, v. 290, p. 508-16.
Pueyo, E, A Martinez-Rodriguez, M C Polo, G Santa-Maria, B Bartolome, 2000, Release of lipids during yeast autolysis in a model wine system: J Agric Food Chem, v. 48, p. 116-22.
Robinson JL, Tsimidou M, Macrae R, 1985, Evaluation of the mass detector for quantitative detection of triglycerides and fatty acid methyl esters: J Chromatogr, v. 324, p. 35-51.
Rouet-Mayer MA, et al, 1995, Critical analysis of phospholipid hydrolyzing activities in ripening tomato fruits. Study by spectrofluorimetry and high-performance liquid chromatography: Lipids, v. 30, p. 739-746.
Schepky, AG, R Siegner, W Diembeck, 1997, Simultaneous HPLC determination of metabolites of the inflammatory cascade: Inflamm Res, v. 46, p. 417-9.
Silversand, C, C Haux, 1997, Improved high-performance liquid chromatographic method for the separation and quantification of lipid classes: application to fish lipids: J Chromatogr B Biomed Sci Appl, v. 703, p. 7-14.
Stolyhwo A, et al, 1983, Use of light scattering as a detector principle in liquid chromatography: J Chromatogr, v. 265, p. 1-18.
Monoglycerides
Bruns, A, Waldhoff H, Winkle W, 1989, Applications of HPLC with evaporative light scattering detection in fat and carbohydrate chemistry: Chromatographia, v. 27, p. 340-342.
Donot F et al., 2016. Rapid analysis and quantification of major neutral lipid species and fress fatty acids by HPLC-ELSD from microalgae: Eur J Lipid Sci Technol, v. 118, p. 1550-6
El-Hamdy, AH, W W Christie, 1993, Separation of Non-Polar Lipids by High Performance Liquid Chromatography on a Cyanopropyl Column. HRC – J High Resol Chromatogr, v. 16, 55-57.
Foglia, TA, et al., 2004, Comparison of chromatographic methods for the determination of bound glycerol in biodiesel. Chromatographia, v. 60, 305-311.
Holcapek, M, P Jandera, J Fischer, B Prokes, 1999, Analytical monitoring of the production of biodiesel by high- performance liquid chromatography with various detection methods: J Chromatogr A, v. 858, p. 13-31.
Hopia, AI, V M Ollilainen, 1993, Comparison of the Evaporative Light Scattering Detector (ELSD) and Refractive Index Detector (RID) in Lipid Analysis. J Liquid Chromatogr 16, 2469-2482.
Hopia, AI, V I Piironen, P E Koivistoinen, L E T Hyvonen, 1992, Analysis of Lipid Classes by Solid-Phase Extraction and High-Performance Size-Exclusion Chromatography. J Am Oil Chem Soc, v. 69, 772-776.
Liu, J, T Lee, E Bobik, M Guzmanharty, C Hastilow, 1993, Quantitative Determination of Monoglycerides and Diglycerides by High-Performance Liquid Chromatography and Evaporative Light-Scattering Detection. J Am Oil Chem Soc, v. 70, 343-347.
Lopez-Lopez A, et al, 2001, Direct determination by high-performance liquid chromatography of sn-2 monopalmitin after enzymatic lipase hydrolysis: J Chromatogr B, v. 760, p. 97-105.
Perona, JS, et al., 2003, Simultaneous determination of molecular species of monoacylglycerols, diacylglycerols and triacylglycerols in human very-low-density lipoproteins by reversed-phase liquid chromatography: J Chromatogr B, v. 785, p. 89-99.
Pueyo, E, A Martinez-Rodriguez, M C Polo, G Santa-Maria, B Bartolome, 2000, Release of lipids during yeast autolysis in a model wine system: J Agric Food Chem, v. 48, p. 116-22.
Silversand, C, C Haux, 1997, Improved high-performance liquid chromatographic method for the separation and quantification of lipid classes: application to fish lipids: J Chromatogr B Biomed Sci Appl, v. 703, p. 7-14.
Weete JD, 1995, Studies on the thermalization of lecithin, in Phospholipids : characterization, metabolism, and novel biological applications, Cevc G, Paltauf F, AOCS Press, Champaign, Ill, p. 357-362.
Diglycerides
Bruns A, Waldhoff H, Winkle W, 1989, Applications of HPLC with evaporative light scattering detection in fat and carbohydrate chemistry: Chromatographia, v. 27, p. 340-342.
Christie WW, 1986, Separation of lipid classes by high-performance liquid chromatography with the “mass detector”: J Chromatogr, v. 361, p. 398-399.
Donot F et al., 2016. Rapid analysis and quantification of major neutral lipid species and fress fatty acids by HPLC-ELSD from microalgae: Eur J Lipid Sci Technol, v. 118, p. 1550-6
El-Hamdy, AH, W W Christie, 1993, Separation of Non-Polar Lipids by High Performance Liquid Chromatography on a Cyanopropyl Column. HRC – J High Resol Chromatogr, v. 16, 55-57.
Foglia, TA, et al., 2004, Comparison of chromatographic methods for the determination of bound glycerol in biodiesel. Chromatographia, v. 60, 305-311.
Holcapek, M, P Jandera, J Fischer, B Prokes, 1999, Analytical monitoring of the production of biodiesel by high- performance liquid chromatography with various detection methods: J Chromatogr A, v. 858, p. 13-31.
Hopia, AI, V M Ollilainen, 1993, Comparison of the Evaporative Light Scattering Detector (ELSD) and Refractive Index Detector (RID) in Lipid Analysis. J Liquid Chromatogr, v. 16, 2469-2482.
Hopia, AI, V I Piironen, P E Koivistoinen, L E T Hyvonen, 1992, Analysis of Lipid Classes by Solid-Phase Extraction and High-Performance Size-Exclusion Chromatography. J Amer Oil Chem Soc, v. 69, 772-776.
Liu, J, T Lee, E Bobik, M Guzmanharty, C Hastilow, 1993, Quantitative Determination of Monoglycerides and Diglycerides by High-Performance Liquid Chromatography and Evaporative Light-Scattering Detection. J Am Oil Chem Soc, v. 70, 343-347.
Murphy, EJ, T A Rosenberger, L A Horrocks, 1996, Separation of neutral lipids by high-performance liquid chromatography: Quantification by ultraviolet, light scattering and fluorescence detection. J Chromatogr, v. 685, 9-14.
Nunez, A, G J Piazza, 1995, Analysis of lipoxygenase kinetics by high-performance liquid chromatography with a polymer column: Lipids, v. 30, p. 129-33.
Perona, JS, et al., 2003, Simultaneous determination of molecular species of monoacylglycerols, diacylglycerols and triacylglycerols in human very-low-density lipoproteins by reversed-phase liquid chromatography: J Chromatogr B, v. 785, p. 89-99.
Pueyo, E, A Martinez-Rodriguez, M C Polo, G Santa-Maria, B Bartolome, 2000, Release of lipids during yeast autolysis in a model wine system: J Agric Food Chem, v. 48, p. 116-22.
Rouet-Mayer MA, et al, 1995, Critical analysis of phospholipid hydrolyzing activities in ripening tomato fruits. Study by spectrofluorimetry and high-performance liquid chromatography: Lipids, v. 30, p. 739-746.
Silversand, C, C Haux, 1997, Improved high-performance liquid chromatographic method for the separation and quantification of lipid classes: application to fish lipids: J Chromatogr B Biomed Sci Appl, v. 703, p. 7-14.
Weete JD, 1995, Studies on the thermalization of lecithin, in Phospholipids : characterization, metabolism, and novel biological applications: Champaign, Ill, AOCS Press, p. 357-362.
Triglycerides
Aitzetmuller K, Gronheim M, 1993, Gradient elution of fats and oils with light scattering detection: Fat Sci Technol, v. 95, p. 164-168.
Amaral JS, et al., 2004, Triacylglycerol composition of walnut (Juglans regia L) cultivars : characterization by HPLC-ELSD and chemometrics: J Agric Food Chem, v. 52, p. 7964-9.
Bergqvist, MHJ, P Kaufmann, 1993 A Multivariate Optimization of Triacyglycerol Analysis by High-Performance Liquid Chromatography: Lipids, v. 28, p. 667-675.
Bruns A, Waldhoff H, Winkle W, 1989, Applications of HPLC with evaporative light scattering detection in fat and carbohydrate chemistry: Chromatographia, v. 27, p. 340-342.
Buchgraber, M, F Ulberth, E Anklam, 2000, Comparison of HPLC and GLC techniques for the determination of the triglyceride profile of cocoa butter: J Agric Food Chem, v. 48, p. 3359-63.
Burkow IC, et al, 1991, Analysis of polymers from autoxidized marine oils by gel permeation HPLC using a light-scattering detector: Lipids, v. 26, p. 227-231.
Burkow IC, Henderson RJ, 1991, Isolation and quantification of polymers from autoxidized fish oils by HPLC size-exclusion with evaporative mass detector: J Chromatogr, v. 552, p. 501-506.
Caboni MF, Conte LS, Lerckeer G, 1992, Rapid HPLC analysis of triacylglycerols by isocratic elution and light scattering detection: Ital J Food Sci, v. 4, p. 125-132.
Carballo-Marrero S et al., Microwave assisted high performance liquid chromatography for the separation of triacylglycerols in vegetable oils using an evaporative light scattering detector: Food Chem 2019, 300, 125203.
Christie WW, 1986, Separation of lipid classes by high-performance liquid chromatography with the “mass detector”: J Chromatogr, v. 361, p. 398-399.
Christie WW, 1988, Separation of molecular species of triacylglycerols by high-performance liquid chromatography with a silver ion column: J Chromatogr, v. 454, p. 273-284.
Christie WW., 1994, Silver Ion and Chiral Chromatography in the Analysis of Triacylglycerols. Prog Lipid Res, v. 33, p. 9-18.
Conforti, FD, C H Harris, J T Rinehart, 1993, High-Performance Liquid Chromatographic Analysis of Wheat Flour Lipids Using an Evaporative Light Scattering Detector. J Chromatogr, v. 645, p. 83-88.
Cunha SC et al., 2006, Discrimination of vegetal oils by triacylglycerols evaluation of profile using HPLC/ELSD. Food Chem v. 95, p. 518-524
Deffense, E., 1993, A New Analytical Method for the Separation via RP-HPLC of Mono-Unsaturated Triglycerides According to Their Isomeric Position 1-2 and 1-3. Rev Fr Corps Gras, v. 40, p. 33-39.
Donot F et al., 2016. Rapid analysis and quantification of major neutral lipid species and fress fatty acids by HPLC-ELSD from microalgae: Eur J Lipid Sci Technol, v. 118, p. 1550-6
El-Hamdy, AH, W W Christie, 1993, Separation of Non-Polar Lipids by High Performance Liquid Chromatography on a Cyanopropyl Column. HRC – J High Resol Chromatogr, v. 16, p. 55-57.
Février P, et al., 2001, Separation of glyceride positional isomers by silver ion chromatography. J Chromatogr A, v. 923, p. 53-57
Foglia TA et al., 2005, Determination of biodiesel and triacylglycerols in diesel fuel by LC. Chromatographia v. 62, p. 115-9.
Gladkowski W et al., 2012, Isolation of pure phospholipid fraction from egg yolk. JAOCS v. 89, p. 179-182.
Gotoh N et al., 2006, Quantification method for triglyceride molecular species in fish oil with high performance liquid chromatography – ultraviolet detector – evaporative light scattering detector. J Oleo Sci v. 55, p. 457-463
Graeve M et al., 2009, Improved separation and quantification of neutral and polar lipid classes by HPLC-ELSD using a monolithic silica phase application to exceptional marine lipids: J Chromatogr B, v. 877, p. 1815-9
Henderson RJ, Burkow IC, Millar RM, 1993, Hydrolysis of fish oils containing polymers of triacylglycerols by pancreatic lipase in vitro: Lipids, v. 28, p. 313-319.
Héron, S, A Tchapla, 1999, Comparison of the responses of triacylglycerols with an evaporative visible scattering detector used in conventional, micro and capillary liquid chromatography: J Chromatogr A, v. 848, p. 95-104.
Héron, S et al., 2004, Post-column as a method of controlling triacylglycerol response coefficient of an evaporative light scattering detector in liquid chromatography-evaporative light-scattering detection: J Chromatogr A, v. 1035, p. 221-225.
Herslof B, G Kindmark, 1985, HPLC of triglycerides with gradient elution: Lipids, v. 20, p. 783-790.
Hierro MTG, et al, 1992, Determination of the triglyceride composition of avocado oil by high-performance liquid chromatography using a light-scattering detector: J Chromatogr, v. 607, p. 329-338.
Holcapek, M, P Jandera, J Fischer, B Prokes, 1999, Analytical monitoring of the production of biodiesel by high- performance liquid chromatography with various detection methods: J Chromatogr A, v. 858, p. 13-31.
Holcapek M et al., 2005, Quantitation of triacylglycerols in plant oils using HPLC with APCI-MS, evaporative light-scattering, and UV detection.
J Sep Sci, v . 28, p.1315-1333.
Hopia, AI, V M Ollilainen, 1993, Comparison of the Evaporative Light Scattering Detector (ELSD) and Refractive Index Detector (RID) in Lipid Analysis. J Liquid Chromatogr, v. 16, p. 2469-2482.
Hopia, AI, V I Piironen, P E Koivistoinen, L E T Hyvonen, 1992, Analysis of Lipid Classes by Solid-Phase Extraction and High-Performance Size-Exclusion Chromatography. J Amer Oil Chem Soc, v. 69, p.772-776.
Huang AS, et al, 1994, Identification and quantification of SALATRIM 23CA in foods by the combination of supercritical fluid extraction, particle beam LC-mass spectrometry, and HPLC with light-scattering detector, J Agric Food Chem, v.42, p.468-473.
Huang YS, et al, 1992, Effect of dietary linoleic acid content on the distribution of triacylglycerol molecular species in rat adipose tissue: Lipids, v. 27, p. 711-715.
Isbell TA, et al., 2008, Method for analysis of fatty acid distribution and oil content on a single Lesquerella fendleri seed: Ind Crops Prod, v. 28, p. 231-6.
Kobayashi N et al., 2013, Rapid detection and quantification of triacylglycerol by HPLC-ELSD in Chlamydomonas reinhardtii and Chlorella strains: Lipids v. 48, p. 1035-49.
Laakso P, et al, 1990, Analysis of North Atlantic and Baltic fish oil triacylglycerols by high-performance liquid chromatography: Lipids, v. 25, p. 284-291.
Lall RK et al., 2009, Conjugated linoleic acid-rich soy oil triacylglycerol identification: J Agric Food Chem, v. 57, p. 1727-1734.
Lee JH, et al., 2007, Separation of triacylglycerol species from interesterified oils by high-performance liquid chromatography: JAOCS,v. 84, p. 211-217.
Letter WS., 1993, A Qualitative Method for Triglyceride Analysis by HPLC Using an Evaporative Light-Scattering Detector. J Liquid Chromatogr, v. 16, p. 225-239.
Lisa M et al., 2007, Quantitation of triacylglycerols from plant oils using charged aerosol detection with gradient compensation. J Chromatogr A, v. 1176, p. 135-142.
Makinen M, V Piironen, A Hopia, 1996, Postcolumn chemiluminescence, ultraviolet and evaporative light-scattering detectors in high-performance liquid chromatographic determination of triacylglycerol oxidation. J Chromatogr, v. 734, p. 221-229.
Mangos TJ, et al, 1999, Normal-phase high performance liquid chromatographic separation and characterization of short- and long-chain triacylglycerols: Chromatographia, v. 49, p. 363-8.
Markello, TC, J R Guo, W A Gahl, 1991, High-Performance Liquid Chromatography of Lipids for the Identification of Human Metabolic Disease: Anal Biochem, v. 198, p. 368-374.
Merelli B et al., 2007, Analysis of triacylglycerols on porous graphitic carbon by high temperature liquid chromatography: J Chromatogr A, v.1157, p. 462-466
Moreau RA, 2006, The analysis of lipids via HPLC with a charged aerosol detector: Lipids, v. 41, p. 727-734
Morera Pons, S, A I Castellote Bargallo, M C Lopez Sabater, 1998, Analysis of human milk triacylglycerols by high-performance liquid chromatography with light-scattering detection: J Chromatogr A, v. 823, p. 475-82.
Morera Pons, S, A I Castellote Bargallo, M C Lopez Sabater, 1998, Evaluation by high-performance liquid chromatography of the hydrolysis of human milk triacylglycerides during storage at low temperatures: J Chromatogr A, v. 823, p. 467-74.
Mu, H, C E Hoy, 2001, Intestinal absorption of specific structured triacylglycerols: J Lipid Res, v. 42, p. 792-8.
Murphy, EJ, T A Rosenberger, L A Horrocks, 1996, Separation of neutral lipids by high-performance liquid chromatography: Quantification by ultraviolet, light scattering and fluorescence detection. J Chromatogr, v. 685, p. 9-14.
Neff, WE, G R List, W C Byrdwell, 1999, Quantitative composition of high palmitic and stearic acid soybean oil triacylglycerols by reversed phase high performance liquid chromatography: Utilization of evaporative light scattering and flame ionization detectors. J Liquid Chromatogr, v. 22, p. 1649-1662.
Nunez, A, G J Piazza, 1995, Analysis of lipoxygenase kinetics by high-performance liquid chromatography with a polymer column: Lipids, v. 30, p. 129-33.
Olsson, P., J. Holmback, B. Herslof, 2014, A single step reversed-phase high performance lliquid chromatography separation of polar and non-polar lipids: J Chromatogr A, v. 1369, p. 105-115.
Palmer, AJ, F J Palmer, 1989, Rapid analysis of triacylglycerols using high-performance liquid chromatography with light scattering detection: J Chromatogr, v. 465, p. 369-77.
Perona, JS, et al., 2003, Simultaneous determination of molecular species of monoacylglycerols, diacylglycerols and triacylglycerols in human very-low-density lipoproteins by reversed-phase liquid chromatography: J Chromatogr B, v. 785, p. 89-99.
Perrin JL, Prévot A, 1986, Utilisation d’un détecteur à diffusion de la lumière laser dans l’étude des corps gras par CLHP II Analyse des triglycerides des huiles et des graisses: Rev Fr Corps gras, v. 11, p. 437-445.
Pons, SM, A C Bargallo, C C Folgoso, M C Lopez Sabater, 2000, Triacylglycerol composition in colostrum, transitional and mature human milk: Eur J Clin Nutr, v. 54, p. 878-82.
Pueyo, E, A Martinez-Rodriguez, M C Polo, G Santa-Maria, B Bartolome, 2000, Release of lipids during yeast autolysis in a model wine system: J Agric Food Chem, v. 48, p. 116-22.
Reske, J, et al., 1997, Triacylglycerol composition and structure in genetically modified sunflower and soybean oils: JAOCS, v. 74, p. 989-998.
Robinson JL, Tsimidou M, Macrae R, 1985, Evaluation of the mass detector for quantitative detection of triglycerides and fatty acid methyl esters: J Chromatogr, v. 324, p. 35-51.
Rodriguez-Alcala LM et al., 2010, Major lipid classes separation of buttermilk, and cows, goats and ewes milk by high performance liquid chromatography with an evaporative light scattering detector focused on the phospholipid fraction: J Chromatogr A, v. 1217, p. 3063-3066
Rombaut R et al., 2009, Triacylglycerol analysis of fats and oils by evaporative light scattering detection : JAOCS, v. 86, p. 19-25.
Ross KL et al., 2011, Reversed-phase analysis of triacylglycerols by ultra performance liquid chromatography-evaporative light scattering detection (UPLC-ELSD) : Lipid Technol 2011, v. 23, p. 14-16.
Rouet-Mayer MA, et al, 1995, Critical analysis of phospholipid hydrolyzing activities in ripening tomato fruits. Study by spectrofluorimetry and high-performance liquid chromatography: Lipids, v. 30, p. 739-746.
Sawada, T, K Takahashi, M Hatano, 1992, Molecular Species Analysis of Fish Oil Triglyceride by Light Scattering Mass Detector Equipped Liquid Chromatograph .1. Effect of Column Temperature on Improvement of Resolution in Separating Triglyceride Molecular Species Containing Highly Unsaturated Fatty Acids by Reverse Phase High Performance Liquid Chromatography. Nippon Suisan Gakkaishi – Bulletin of the Japanese Society of Scientific Fisheries, v. 58, p. 1313-1317.
Seppanen-Laakso, T, I Laakso, H Vanhanen, K Kiviranta, T Lehtimaki, R Hiltunen, 2001, Major human plasma lipid classes determined by quantitative high- performance liquid chromatography, their variation and associations with phospholipid fatty acids: J Chromatogr B Biomed Sci Appl, v. 754, p. 437-45.
Sjovall, O, A Kuksis, H Kallio, 2001, Reversed-phase high-performance liquid chromatographic separation of tert.-butyl hydroperoxide oxidation products of unsaturated triacylglycerols: J Chromatogr A, v. 905, p. 119-32.
Sjovall, O, A Kuksis, L Marai, J J Myher, 1997, Elution factors of synthetic oxotriacylglycerols as an aid in identification of peroxidized natural triacylglycerols by reverse-phase high-performance liquid chromatography with electrospray mass spectrometry: Lipids, v. 32, p. 1211-8.
Spanos, GA, S J Schwartz, R B van Breemen, C H Huang, 1995, High-performance liquid chromatography with light-scattering detection and desorption chemical-ionization tandem mass spectrometry of milk fat triacylglycerols: Lipids, v. 30, p. 85-90.
Stolyhwo A, et al, 1984, Study of the qualitative and quantitative properties of the light-scattering detector: J Chromatogr, v. 288, p. 253-275.
Stolyhwo A, et al, 1983, Use of light scattering as a detector principle in liquid chromatography: J Chromatogr, v. 265, p. 1-18.
Tallmadge DH, Lin PYT, 1993, Liquid chromatographic method for determining the percent of Olestra in lipid samples: JAOAC int, v. 76, p. 1396-1400.
Tarvainen M et al., 2010, Liquid chromatography-light scattering detector-mass spectrometric analysis of digested oxidized rapeseed oil: Lipids, v. 45, p. 1061-1079.
Torres CF et al., 2005, Study of the analysis of alkoxyglycerols and other non-polar lipids by liquid chromatography coupled with evaporative light-scattering detector: J Chromatogr A, v. 1078, 28-34.
Viinanen, E, A Hopia, 1994, Reversed phase high performance liquid chromatographic analysis of triacylglycerol autoxidation products with ultraviolet and evaporative light-scattering detectors. J Am Oil Chem Soc, v. 71, 537-539.
Wojtusik MJ, Brown PR, Turcotte JG, 1989, Separation and detection of triacylglycerols by high-performance liquid chromatography: Chem Rev, v. 89, p. 397-406.
Phospholipids
Abidi, SL, T L Mounts, 1997, Reversed-phase separations of nitrogenous phospholipids on an octadecanoyl poly(vinyl alcohol) phase: J Chromatogr A, v. 773, p. 93-101.
Arnoldsson KC, Olsson NU, 1995, Analysis of polar lipids with HPLC and light-scattering detection, inPhospholipids : Characterization, metabolism, and novel biological applications, Cevc G//Paltauf F Eds, AOCS Press, Champaign, Ill, p. 44-55.
Becart J, Chevalier C, Biesse JP, 1990, Quantitative analysis of phospholipids by HPLC with a light scattering detector : Application to raw materials for cosmetic use: J High Resol Chromatogr, v. 13, p. 126-129.
Beermann, C, et al., 2003, Lipid class separation by HPLC combined with GC FA analysis: comparison of seed lipid compositions from different Brassica napus L varieties: JAOCS, v. 80, p. 747-753.
Breton L, Serkiz B, Volland J P, Lepagnol J, 1989, A new rapid method for phospholipid separation by high-performance liquid chromatography with light-scattering detection: J Chromatogr, v. 497, p. 243-249.
Brouwers, JF, B M Gadella, L M van Golde, A G Tielens, 1998, Quantitative analysis of phosphatidylcholine molecular species using HPLC and light scattering detection: J Lipid Res, v. 39, p. 344-53.
Bunger, H, U Pison, 1995, Quantitative analysis of pulmonary surfactant phospholipids by high- performance liquid chromatography and light-scattering detection: J Chromatogr B Biomed Appl, v. 672, p. 25-31.
Caboni, MF, S Menotta, G Lercker, 1994, High-performance liquid chromatography separation and light-scattering detection of phospholipids from cooked beef: J Chromatogr A, v. 683, p. 59-65.
Caboni MF, Menotta S, Lerckeer G, 1996, Separation and analysis of phospholipids in different foods with a light-scattering detector: JAOCS, v. 73, p. 1561-1566.
Chamorro L et al., 2013, Quantitative profile of lipid classes in blood by normal phase chromatography with evaporative light scattering detector application in the detection of lipid class abnormalities in liver cirrhosis: Clin Chim Acta, v. 421, p. 132-9.
Christie WW, 1986, Separation of lipid classes by high-performance liquid chromatography with the “mass detector”: J Chromatogr, v. 361, p. 398-399.
Christie WW, 1996, Separation of phospholipid classes by high-performance liquid chromatography, inAdvances in lipid methodology-Three: Dundee, The oily Press, p. 77-107.
Christie WW, Noble RC, Davies G, 1987, Phospholipids in milk and dairy products: J Soc Dairy Technol, v. 40, p. 10-12.
Christie WW, Urwin R.A., 1995, Separation of lipid classes from plant tissues by high performance liquid chromatography on chemically bonded stationary phases. J High Resol Chromatogr 18, p. 97-100.
Conforti, FD, C H Harris, J T Rinehart, 1993, High-Performance Liquid Chromatographic Analysis of Wheat Flour Lipids Using an Evaporative Light Scattering Detector. J Chromatogr v. 645, p. 83-88.
De Kock J, 1995, The european analytical subgroup of ILPS : working together toward standardization of lecithin and phospholipid analysis, in Phospholipids : characterization, metabolism, and novel biological applications, Cevc G, Paltauf F Eds, AOCS, Champaign, Ill p. 22-28.
Descalzo A,M, et al., 2003, Light-scattering detection of phospholipids resolved by HPLC. Lipids, v. 38, p. 999-1003.
Deschamps FS, et al, 2001, Assessment of the retention properties of poly(vinyl alcohol) stationary phase for lipid class profiling in liquid chromatography: J Chromatogr A, v. 928, p. 127-137.
Duan J et al., 2010, Rapid quantitative analysis of sphingolipids in seafood using HPLC with evaporative light-scattering detection its application in tissue distribution of sphingolipids in fish.
J Oleo Sci, v. 59, 509-513.
Fagan P, et al., 2004, Liquid chromatographic analysis of milk phospholipids with on-line pre-concentration: J Chromatogr A, v. 1054, p. 241-249.
Graeve M et al., 2009, Improved separation and quantification of neutral and polar lipid classes by HPLC-ELSD using a monolithic silica phase application to exceptional marine lipids: J Chromatogr B, v. 877, p. 1815-9
Grizard G, et al, 2000, Separation and quantification of cholesterol and major phospholipid classes in human semen by high-performance liquid chromatography and light-scattering detection: J Chromatogr B, v. 740, p. 101-7.
Gunnarsson, T, L Ekblad, A Karlsson, P Michelsen, G Odham, B Jergil, 1997, Separation of polyphosphoinositides using normal-phase high-performance liquid chromatography and evaporative light scattering detection or electrospray mass spectrometry. Anal Biochem v. 254, p. 293-296.
He, J, A P Cheung, E Wang, K Fang, P Liu, 2001, High-performance liquid chromatographic analysis for a non-chromophore- containing phosphatidyl inositol analog, 1-((1-O-octadecyl-2-O-methyl- sn-glycero)phospho)-1D-3-deoxy-myo-inositol, using indirect UV detection: J Chromatogr A, v. 913, p. 355-63.
Herslof, B, 1995, Analysis of indusrgtial phospholipid materials. in Phospholipids : characterization, metabolism, and novel biological applications, Cevc G, Paltauf F Eds, AOCS, Champaign, Ill, p. 1-14.
Holland, WL, EC Stauter, BJ Stith, 2003, Quantification of phosphatidic acid and lysophosphatidic acid by HPLC with evaporative light scattering detection. J Lipid Res, v.44, p. 854-858.
Jaaskelainen, I, A Urtti, 1994, Liquid chromatography determination of liposome components using a light-scattering evaporative detector. J Pharm Biomed Anal, v. 12, p. 977-982.
Juaneda, P, G Rocquelin, P O Astorg, 1990, Separation and quantification of heart and liver phospholipid classes by high-performance liquid chromatography using a new light-scattering detector: Lipids, v. 25, p. 756-9.
Landi, L, M C Galli, L Cabrini, G Hakim, C Carru, D Fiorentini, 1998, HPLC and light scattering detection allow the determination of phospholipids in biological samples and the assay of phospholipase A2: Biochem Mol Biol Int, v. 44, p. 1157-66.
Le, TT, et al., 2011, Improved solvent extraction procedure and high-performance liquid chromatography -evaporative light-scattering detector method for analysis of polar lipids from dairy materials: J Agric Food Chem v. 59, p. 10407-13
Letter, WS, 1992, A Rapid Method for Phospholipid Class Separation by HPLC Using an Evaporative Light-Scattering Detector: J Liquid Chromatogr, v. 15, p. 253-266.
Lutzke, BS, J M Braughler, 1990, An improved method for the identification and quantitation of biological lipids by HPLC using laser light-scattering detection: J Lipid Res, v. 31, p. 2127-30.
Markello, TC, J R Guo, W A Gahl, 1991, High-Performance Liquid Chromatography of Lipids for the Identification of Human Metabolic Disease: Anal Biochem, v. 198, p. 368-374.
Moreau RA, 1990, Plant lipid class analysis by HPLC in Plant lipid biochemistry, structure and utilization, v. Quinn PJ, Harwood JL Eds, Portland Press Ltd, London p. 20-22.
Moreau RA, 2006, The analysis of lipids via HPLC with a charged aerosol detector: Lipids, v. 41, p. 727-734
Mounts TL, et al, 1992, HPLC analysis of phospholipids by evaporative laser light-scattering detector: JAOCS, v. 69, p. 438-442.
Néron S et al., 2004, Separation and quantification by high-performance liquid chromatography with light scattering detection of the main wheat flour phospholipids during dough mixing in the presence of phospholipase: J Chromatogr A, v. 1047, p. 77-83.
Nunez, A, G J Piazza, 1995, Analysis of lipoxygenase kinetics by high-performance liquid chromatography with a polymer column: Lipids, v. 30, p. 129-33.
Olsson, NU, A J Harding, C Harper, N Salem, 1996, High-performance liquid chromatography method with lightscattering detection for measurements of lipid class composition: Analysis of brains from alcoholics. J Chromatogr, v. 681, p. 213-218.
Olsson, P., J. Holmback, B. Herslof, 2014, A single step reversed-phase high performance lliquid chromatography separation of polar and non-polar lipids: J Chromatogr A, v. 1369, p. 105-115.
Picchioni, GA, A E Watada, B D Whitaker, 1996, Quantitative high-performance liquid chromatography analysis of plant phospholipids and glycolipids using light-scattering detection: Lipids, v. 31, p. 217-21.
Piotrowski, JJ, S Shah, J J Alexander, 1996, Mature human atherosclerotic plaque contains peroxidized phosphatidylcholine as a major lipid peroxide: Life Sci, v. 58, p. 735-40.
Ramstedt, B, J P Slotte, 2000, Separation and purification of sphingomyelin diastereomers by high- performance liquid chromatography: Anal Biochem, v. 282, p. 245-9.
Rouet-Mayer, MA, et al., 1995, Critical analysis of phospholipid hydrolyzing activities in ripening tomato fruits. Study by spectrofluorimetry and high-performance liquid chromatography: Lipids, v. 30, p. 739-746.
Russo M et al., 2013, Profiling and quantifying polar lipids in milk by hydrophilic interaction liquid chromatography coupled with evaporative light-scattering and mass spectrometry detection:
Anal Bioanal Chem, v. 405, p. 4617-26.
Sala Vila, A, et al., 2003, High-performance liquid chromatography with evaporative light-scattering detection for the determination of phospholipid classes in human milk, infant formulas and phospholipid sources of long-chain polyunsaturated fatty acids: J Chromatogr A, v. 1008, p. 73-80.
Sas, B, E Peys, M Helsen, 1999, Efficient method for (lyso)phospholipid class separation by high- performance liquid chromatography using an evaporative light-scattering detector: J Chromatogr A, v. 864, p. 179-82.
Schepky, AG, R Siegner, W Diembeck, 1997, Simultaneous HPLC determination of metabolites of the inflammatory cascade: Inflamm Res, v. 46, p. 417-9.
Seppanen-Laakso, T, I Laakso, H Vanhanen, K Kiviranta, T Lehtimaki, R Hiltunen, 2001, Major human plasma lipid classes determined by quantitative high- performance liquid chromatography, their variation and associations with phospholipid fatty acids: J Chromatogr B Biomed Sci Appl, v. 754, p. 437-45.
Shimada, H, et al., 2002, Complete polar lipid composition of Thermoplasma acidophilum HO-62 determined by high-performance liquid chromatography with evaporative light-scattering detection: J Bacteriol, v. 184, p. 556-563.
Shimizu, Y, M Nakata, J Matsunuma, T Mizuochi, 2001, Simultaneous quantification of components of neoglycolipid-coated liposomes using high-performance liquid chromatography with evaporative light scattering detection: J Chromatogr B Biomed Sci Appl, v. 754, p. 127-33.
Silversand, C, C Haux, 1997, Improved high-performance liquid chromatographic method for the separation and quantification of lipid classes: application to fish lipids: J Chromatogr B Biomed Sci Appl, v. 703, p. 7-14.
Sotirhos N, et al, 1985, Reversed-phase high performance liquid chromatographic separation and mass detection of individual phospholipid classes: J Chromatogr, v. 331, p. 313-320.
Stith, BJ, J Hall, P Ayres, L Waggoner, J D Moore, W A Shaw, 2000, Quantification of major classes of Xenopus phospholipids by high performance liquid chromatography with evaporative light scattering detection: J Lipid Res, v. 41, p. 1448-54.
Stolyhwo A, et al, 1987, Analysis of lipid classes by HPLC with the evaporative light-scattering detector: J Liquid Chromatogr, p. 1237-1253.
Strucelj D, et al, 1995, Alcohol fractionation of soybean phospholipids in Phospholipids : Characterization, metabolism, and novel biological applications, Cevc G, Paltauf F Eds, AOCS, Champaign, Ill, AOCS Press, p. 348-356.
Van der Meeren P, Vanderdeelen J, Huys M, Baert L, 1990, Quantification of soybean phospholipid solubility using an evaporative light scattering mass detector, in Phospholipids, v. Hanin I, Pepeu G Eds, Plenum Press NY, p. 273-277.
Varga, A, P Hansson, G Johnson, C Alling, 2000, Normalization rate and cellular localization of phosphatidylethanol in whole blood from chronic alcoholics: Clin Chim Acta, v. 299, p. 141-50.
Varga, A, P Hansson, C Lundqvist, C Alling, 1998, Phosphatidylethanol in blood as a marker of ethanol consumption in healthy volunteers: comparison with other markers: Alcohol Clin Exp Res, v. 22, p. 1832-7.
Vecchini, A, V Panagia, L Binaglia, 1997, Analysis of phospholipid molecular species: Mol Cell Biochem, v. 172, p. 129-36.
Vesterqvist, O, C A Sargent, S C Taylor, J Newburger, A A Tymiak, G J Grover, M L Ogletree, 1992, Quantitation of lysophosphatidylcholine molecular species in rat cardiac tissue: Anal Biochem, v. 204, p. 72-8.
Vila AS, et al., 2003, High-performance liquid chromatography with evaporative light-scattering detection for the determination of phospholipid classes in human milk, infant formulas and phospholipid sources of long-chain polyunsaturated fatty acids : J Chromatogr A, v. 1008, p.73-80.
Wang T, et al, 1999, Fractionation of soybean phospholipids by high-performance liquid chromatography with an evaporative light-scattering detector: JAOCS, v. 76, p. 1313-1321.
Weete JD, 1995, Studies on the thermalization of lecithin, in Phospholipids : characterization, metabolism, and novel biological applications, Champaign, Ill, AOCS Press, p. 357-362.
Yip HS et al., 2007, Feasibility of phospholipids separation by packed column SFC with mass spectrometric and light scattering detection: Chromatographia, v. 65, p. 655-665
Zuidam, NJ, C Versluis, E A Vernooy, D J Crommelin, 1996, Gamma-irradiation of liposomes composed of saturated phospholipids: effect of bilayer composition, size, concentration and absorbed dose on chemical degradation and physical destabilization of liposomes: Biochim Biophys Acta, v. 1280, p. 135-48.
Glycolipids
Arnoldsson KC, Olsson NU, 1995, Analysis of polar lipids with HPLC and light-scattering detection, Phospholipids : Characterization, metabolism, and novel biological applications: Champaign, Ill, AOCS Press, p. 44-55.
Bergqvist MHJ, Herslof BG, 1995, Isolation and purification of digalactosyldiacylglycerols. Chromatographia 1995, 40, 129-133.
Christie WW, Noble RC, Davies G, 1987, Phospholipids in milk and dairy products: J Soc Dairy Technol, v. 40, p. 10-12.
Christie WW, Urwin R.A., 1995, Separation of lipid classes from plant tissues by high performance liquid chromatography on chemically bonded stationary phases. J High Resol Chromatogr, v. 18, 97-100.
Conforti, FD, C H Harris, J T Rinehart, 1993, High-Performance Liquid Chromatographic Analysis of Wheat Flour Lipids Using an Evaporative Light Scattering Detector. J Chromatogr, v. 645, 83-88.
Cotting C et al., 2010, Quantification of glycolipids in cereal and dairy matrices, Lipid Technol, v. 22, 183-6.
Czichocki, G, H Fiedler, K Haage, H Much, S Weidner, 2002, Characterization of alkyl polyglycosides by both reversed-phase and normal-phase modes of high-performance liquid chromatography: J Chromatogr A, v. 943, p. 241-50.
Davila, AM, R Marchal, N Monin, J P Vandecasteele, 1993, Identification and determination of individual sophorolipids in fermentation products by gradient elution high-performance liquid chromatography with evaporative light-scattering detection: J Chromatogr, v. 648, p. 139-49.
Deschamps FS, et al, 2001, Assessment of the retention properties of poly(vinyl alcohol) stationary phase for lipid class profiling in liquid chromatography: J Chromatogr A, v. 928, p. 127-137.
Duan J et al., 2010, Rapid quantitative analysis of sphingolipids in seafood using HPLC with evaporative light-scattering detection its application in tissue distribution of sphingolipids in fish.
J Oleo Sci, v. 59, 509-513.
Kashima, M, et al., 2002, Method for quantitative determination of cerebroside in “plant ceramide” foodstuffs by high performance liquid chromatography with evaporative light scattering detection: J Oleo Sci, v. 51, p. 347-354.
Le, TT, et al., 2011, Improved solvent extraction procedure and high-performance liquid chromatography -evaporative light-scattering detector method for analysis of polar lipids from dairy materials: J Agric Food Chem v. 59, p. 10407-13
Lutzke, BS, J M Braughler, 1990, An improved method for the identification and quantitation of biological lipids by HPLC using laser light-scattering detection: J Lipid Res, v. 31, p. 2127-30.
Markello, TC, J R Guo, W A Gahl, 1991, High-Performance Liquid Chromatography of Lipids for the Identification of Human Metabolic Disease: Anal Biochem, v. 198, p. 368-374.
Moreau RA, 1990, Plant lipid class analysis by HPLC in Plant lipid biochemistry, structure and utilization, v. Quinn PJ, Harwood JL Eds, Portland Press Ltd, London p. 20-22.
Moreau RA, 2006, The analysis of lipids via HPLC with a charged aerosol detector: Lipids, v. 41, p. 727-734
Olsson, NU, A J Harding, C Harper, N Salem, 1996, High-performance liquid chromatography method with light scattering detection for measurements of lipid class composition: Analysis of brains from alcoholics. J Chromatogr 681, 213-218.
Picchioni, GA, A E Watada, B D Whitaker, 1996, Quantitative high-performance liquid chromatography analysis of plant phospholipids and glycolipids using light-scattering detection: Lipids, v. 31, p. 217-21.
Roy, S, et al, 2004, Optimisation of the separation of four major neutral glycosphingolipids: application to a rapid and simple detection of urinary globotriaosylceramide in Fabry disease. J Chromatogr B, v. 805, p. 331-337.
Shimada, H, et al., 2002, Complete polar lipid composition of Thermoplasma acidophilum HO-62 determined by high-performance liquid chromatography with evaporative light-scattering detection: J Bacteriol, v. 184, p. 556-563.
Shimizu, Y, M Nakata, J Matsunuma, T Mizuochi, 2001, Simultaneous quantification of components of neoglycolipid-coated liposomes using high-performance liquid chromatography with evaporative light scattering detection: J Chromatogr B Biomed Sci Appl, v. 754, p. 127-33.
Sugawara, T, T Miyazawa, 1999, Separation and determination of glycolipids from edible plant sources by high-performance liquid chromatography and evaporative light-scattering detection. Lipids 34, 1231-1237.
Yunoki, K et al., 2009, Simultaneous quantification of plant glyceroglycolipids including sulfoquinovosyldiacylglycerol by HPLC-ELSD with binary gradient elution:
Lipids, v. 44, p. 77-83.
Sterols, steroids, bile acids
Arborati, M, D Benchorba, I Lesieur, J G Bizot-Espiard, B Guardiola-Lemaitre, M J Chapman, E Ninio, 1997, Oxidative degradation of cholesteryl esters in low-density lipoproteins: analysis by liquid chromatography-light scattering and protection by a new synthetic antioxidant, S20478: Fundam Clin Pharmacol, v. 11, p. 68-77.
Arnoldsson KC, Olsson NU, 1995, Analysis of polar lipids with HPLC and light-scattering detection, Phospholipids : Characterization, metabolism, and novel biological applications: Champaign, Ill, AOCS Press, p. 44-55.
Asmus PA, Landis JB, 1984, Analysis of steroids in bulk pharmaceuticals by liquid chromatography with light-scattering detection: J Chromatogr, v. 316, p. 461-472.
Cayuela, JM, et al., 2003, Simultaneous HPLC analysis of a-tocopherol and cholesterol in fresh pig meat: J Agric Food Chem, v. 57, p. 1120-1124.
Christie WW, 1986, Separation of lipid classes by high-performance liquid chromatography with the “mass detector”: J Chromatogr, v. 361, p. 398-399.
Christie WW, Noble RC, Davies G, 1987, Phospholipids in milk and dairy products: J Soc Dairy Technol, v. 40, p. 10-12.
Christie WW, Urwin R.A., 1995, Separation of lipid classes from plant tissues by high performance liquid chromatography on chemically bonded stationary phases. J High Resol Chromatogr, v. 18, p. 97-100.
Conforti, FD, C H Harris, J T Rinehart, 1993, High-Performance Liquid Chromatographic Analysis of Wheat Flour Lipids Using an Evaporative Light Scattering Detector. J Chromatogr, v. 645, p. 83-88.
Criado A, et al, 2002, Biological fluid screening and confirmation of bile acids by use of an integrated flow-injection-LC-evaporative light-scattering system. Chromatographia, v. 55, p. 49-54.
Criado A, et al., 2003, Direct screening of lyophilised biological fluids for bile acids using an evaporative light scattering detector: J Chromatogr B, v. 792, p.299-305.
Du D, et al., 2011, Rapid isolation and purification of inotodiol and trametenolic acid from Inonotus obliquus by high-speed counter-current chromatography with evaporative light scatting detection. Phytochem Anal, v. 22, p. 419-423.
El-Hamdy, AH, W W Christie, 1993, Separation of Non-Polar Lipids by High Performance Liquid Chromatography on a Cyanopropyl Column. HRC – J High Resol Chromatogr, v. 16, p. 55-57.
Ganzera, M, E Bedir, I A Khan, 2001, Determination of steroidal saponins in Tribulus terrestris by reversed- phase high-performance liquid chromatography and evaporative light scattering detection: J Pharm Sci, v. 90, p. 1752-8.
Grizard G, et al, 2000, Separation and quantification of cholesterol and major phospholipid classes in human semen by high-performance liquid chromatography and light-scattering detection: J Chromatogr B, v. 740, p. 101-7.
Hopia, AI, V M Ollilainen, 1993, Comparison of the Evaporative Light Scattering Detector (ELSD) and Refractive Index Detector (RID) in Lipid Analysis. J Liquid Chromatogr, v. 16, p. 2469-2482.
Hopia, AI, V I Piironen, P E Koivistoinen, L E T Hyvonen, 1992, Analysis of Lipid Classes by Solid-Phase Extraction and High-Performance Size-Exclusion Chromatography. J Amer Oil Chem Soc, v. 69, p. 772-776.
Jaaskelainen, I, A Urtti, 1994, Liquid chromatography determination of liposome components using a light-scattering evaporative detector. J Pharm Biomed Anal, v. 12, p. 977-982.
Letter, WS, 1992, A Rapid Method for Phospholipid Class Separation by HPLC Using an Evaporative Light-Scattering Detector: J Liquid Chromatogr, v. 15, p. 253-266.
Li, W, J F Fitzloff, 2001, A validated method for quantitative determination of saponins in notoginseng (Panax notoginseng) using high-performance liquid chromatography with evaporative light-scattering detection: J Pharm Pharmacol, v. 53, p. 1637-43.
Lutzke, BS, J M Braughler, 1990, An improved method for the identification and quantitation of biological lipids by HPLC using laser light-scattering detection: J Lipid Res, v. 31, p. 2127-30.
Markello, TC, J R Guo, W A Gahl, 1991, High-Performance Liquid Chromatography of Lipids for the Identification of Human Metabolic Disease: Anal Biochem, v. 198, p. 368-374.
Moreau RA, et al., 2003, Characterization of the molecular species of phytosterol fatty acyl esters in corn (maize). Adv Res plant lipids, Murata N et al., eds, Kluwer Acad Pub, p. 241-244.
Moreau RA, 2006, The analysis of lipids via HPLC with a charged aerosol detector: Lipids, v. 41, p. 727-734
Murphy, EJ, T A Rosenberger, L A Horrocks, 1996, Separation of neutral lipids by high-performance liquid chromatography: Quantification by ultraviolet, light scattering and fluorescence detection. J Chromatogr, v. 685, p. 9-14.
Novakovic, J, E Tvrzicka, S Razic, 1998, Determination of free bile acids in pharmaceuticals by thin layer chromatography and high performance liquid chromatography: Boll Chim Farm, v. 137, p. 412-6.
Olsson, NU, A J Harding, C Harper, N Salem, 1996, High-performance liquid chromatography method with lightscattering detection for measurements of lipid class composition: Analysis of brains from alcoholics. J Chromatogr, v. 681, p. 213-218.
Osada K, et al, 1999, Rapid analysis of oxidized cholesterol derivatives by high-performance liquid chromatography combined with diode-array ultraviolet and evaporative laser light-scattering detection: J Amer Oil Chem Soc, v. 76, p. 863-871.
Roda A, et al, 1992, Determination of free and amidated bile acids by high-performance liquid chromatography with light-scattering mass detection: J Lipid Res, v. 33, p. 1393-1402.
Roda, A, R Gatti, V Cavrini, C Cerre, P Simoni, 1993, HPLC study of the impurities present in different ursodeoxycholic acid preparations: comparative evaluation of four detectors: J Pharm Biomed Anal, v. 11, p. 751-60.
Roda, A, A M Gioacchini, C Cerre, M Baraldini, 1995, High-performance liquid chromatographic-electrospray mass spectrometric analysis of bile acids in biological fluids: J Chromatogr B Biomed Appl, v. 665, p. 281-94.
Seppanen-Laakso, T, I Laakso, H Vanhanen, K Kiviranta, T Lehtimaki, R Hiltunen, 2001, Major human plasma lipid classes determined by quantitative high- performance liquid chromatography, their variation and associations with phospholipid fatty acids: J Chromatogr B Biomed Sci Appl, v. 754, p. 437-45.
Silversand, C, C Haux, 1997, Improved high-performance liquid chromatographic method for the separation and quantification of lipid classes: application to fish lipids: J Chromatogr B Biomed Sci Appl, v. 703, p. 7-14.
Sion, B, et al., 2001, Quantitative analysis of desmosterol, cholesterol and cholesterol sulfate in semen by high-performance liquid chromatography: J Chromatogr A, v. 935, p. 259-265.
Miscellaneous
Cassel, S, et al., 2001, Liquid chromatography of polyglycerol fatty esters and fatty ethers on porous graphitic carbon and octadecyl silica by using evaporative light scattering detection and mass spectrometry: J Chromatogr A, v. 919, p. 95-106.
Cayuela, JM, et al., 2003, Simultaneous HPLC analysis of a-tocopherol and cholesterol in fresh pig meat: J Agric Food Chem, v. 57, p. 1120-1124.
Chaimbault P, et al., 1999, Direct analysis of industrial oligoglycerols by liquid chromatography with evaporative light-scattering detection and mass spectrometry: Chromatographia, v. 50, p. 239-242.
D’Acquarica, I, F Gasparrini, D Misiti, C Villani, A Carotti, S Cellamare, S Muck, 1999, Direct chromatographic resolution of carnitine and O-acylcarnitine enantiomers on a teicoplanin-bonded chiral stationary phase: J Chromatogr A, v. 857, p. 145-55.
De Andrés F et al., 2010. Determination of heterocyclic amines in urine samples by capillary liquid chromatography with evaporated light-scattering detection : Anal Bioanal Chem 397, 223-231.
Deschamps FS, et al, 2001, Response enhancement for the evaporative light scattering detection for the analysis of lipid classes and molecular species: Chromatographia, v. 54, p. 607-611.
Donot F et al., 2016. Rapid analysis and quantification of major neutral lipid species and fress fatty acids by HPLC-ELSD from microalgae: Eur J Lipid Sci Technol, v. 118, p. 1550-6
Ganzera, M, J Zhao, I A Khan, 2001, Analysis of terpenelactones in Ginkgo biloba by high performance liquid chromatography and evaporative light scattering detection: Chem Pharm Bull (Tokyo), v. 49, p. 1170-3.
Gaudin, K, et al., 2002, Structure-retention diagrams of ceramides established for their identification: J Chromatogr A, v. 973, p. 69-83.
Gaudin, K, P Chaminade, D Ferrier, A Baillet, 2000, Improvement of evaporative light scattering detection of ceramides using triethylamine and formic acid in non-aqueous reversed phase liquid chromatography. J Liquid Chromatogr, v. 23, 387-397.
Gaudin K et al., 2009, Determination of artesunate using reversed-phase HPLC at increased temperature and ELSD detection: J.Sep.Sci. ,
32, 231–237.
Gildenast, T, J Lasch, 1997, Isolation of ceramide fractions from human stratum corneum lipid extracts by high-performance liquid chromatography: Biochim Biophys Acta, v. 1346, p. 69-74.
Kong, L, X Li, H Zou, H Wang, X Mao, Q Zhang, J Ni, 2001, Analysis of terpene compounds in Cimicifuga foetida L. by reversed- phase high-performance liquid chromatography with evaporative light scattering detection: J Chromatogr A, v. 936, p. 111-8.
Lesellier E, Gaudin K, Chaminade P, Tchapla A, Baillet A, 2003, Isolation of ceramide fractions from skin sample by subcritical chromatography with packed silica and evaporative light scattering detection: J Chromatogr A, v. 1016, p. 111-121.
Li, SL, G Lin, S W Chan, P Li, 2001, Determination of the major isosteroidal alkaloids in bulbs of Fritillaria by high-performance liquid chromatography coupled with evaporative light scattering detection: J Chromatogr A, v. 909, p. 207-14.
Lin, G, P Li, S L Li, S W Chan, 2001, Chromatographic analysis of Fritillaria isosteroidal alkaloids, the active ingredients of Beimu, the antitussive traditional Chinese medicinal herb: J Chromatogr A, v. 935, p. 321-38.
McNabb, TJ, A E Cremesti, P R Brown, A S Fischl, 1999, The separation and direct detection of ceramides and sphingoid bases by normal-phase high-performance liquid chromatography and evaporative light-scattering detection: Anal Biochem, v. 276, p. 242-50.
Rehbock, B, D Gansser, R G Berger, 1997, Analysis of oxylipins by high-performance liquid chromatography with evaporative light-scattering detection and particle beam-mass spectrometry: Lipids, v. 32, p. 1003-10.
Schepky, AG, R Siegner, W Diembeck, 1997, Simultaneous HPLC determination of metabolites of the inflammatory cascade: Inflamm Res, v. 46, p. 417-9.
Wieder, T, et al, 1994, Determination of alkylphosphocholines by high-performance liquid chromatography with light-scattering mass detection: J Chromatogr, v. 652, p. 9-13.
Yokoyama, H, M Matsumoto, H Shiraishi, H Ishii, 2000, Simultaneous quantification of various retinoids by high performance liquid chromatography: its relevance to alcohol research: Alcohol Clin Exp Res, v. 24, p. 26S-29S.
Zhang, M, J Xie, Q Zhou, G Chen, Z Liu, 2003, On-line solid-phase extraction of ceramides from yeast with ceramide III imprinted monolith: J Chromatogr A, v.984, p. 173-183.
Zhou, JY, et al, 1999, Postcolumn fluorescence as an alternative to evaporative light scattering detection for ceramide analysis with gradient elution in non-aqueous reversed-phase liquid chromatography: J Chromatogr A, v. 859, p. 99-105.
Zhou, Q, et al., 2002, Quantification of yeast ceramides using high-performance liquid chromatography-evaporative light-scattering detection: J Chromatogr B, v. 780, p. 161-169.
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