MossobaM.M.AzizianH.KramerJ.K.G., Application of Infrared Spectroscopy to the Rapid Determination of Total Saturated, trans, Monounsaturated, and Polyunsaturated Fatty Acids. http://lipidlibrary.aocs.org/topics/IR-trans/index.htm (2012).
2.
CabassiG.PovoloM.PelizzolaV.MontiL.GenoriniE.ContariniG., “Development of a near infrared method for the quantification of the main classes of fatty acids obtained from raw milk by solvent-free extraction”, J. Near Infrared Spectrosc. 21, 395–402 (2013). doi: http://dx.doi.org/10.1255/jnirs.1074
3.
RichliM.M.ScheederM., “Comparison of sample presentation and analysis modes for the prediction of the fatty acid composition of individual pig carcasses”, Proceedings of the 16th International Conference on Near Infrared Spectroscopy, Ed by Bellon-MaurelV.WilliamsP.DowneyG.KaboréR., IRSTEA, Montpellier, France, pp. 97–100 (2013).
4.
KalininA.KrasheninnikovV.SadovskiyS.YurovaE., “Determining the composition of proteins in milk using a portable near infrared spectrometer”, J. Near Infrared Spectrosc. 21, 409–413 (2013). doi: http://dx.doi.org/10.1255/jnirs.1054
5.
KalininA.TarabukinI.YurovaE., “Determination of the milk fat in fat–oil mixture using portable NIR spectrometer”, Proceedings of the 16th International Conference on Near Infrared Spectroscopy, Ed by Bellon-MaurelV.WilliamsP.DowneyéG.KaboréR., IRSTEA, Montpellier, France, pp. 38–45 (2013).
6.
TitovV.N., “The high content of palmitic fatty acid in the diet is the main reason for the increase of low density lipoprotein”, Atherosclerosis and Dyslipidemia3, 48–57 (2012) (in Russian).
