Phytopharmaceuticals. Группа авторов

Phytopharmaceuticals - Группа авторов


Скачать книгу
in PCA-plots. The combination of a chromatographic fingerprint with PCA and CA is a powerful tool for assessing herbal products quality, or for selecting the best cultivars, on the basis of the preferred properties. For example, HPLC-DAD in combination with PCA and CA was used for quantification of several bioactive compounds (cinnamic acids, flavonols, monoterpenes, benzoic acids, chatechins, organic acids and vitamins) from the different cultivars of raspberry’s buds [179].

      Many studies include supervised methods applied to discriminate samples from different regions or different botanical origin. Partial least squares discriminant analysis (PLS-DA) is the most used supervised method. PLS-DA is a variation of PLS regression analysis, which is a supervised method related to PCA. For example, UV-spectroscopy and ultra-fast liquid chromatography (UFLC) were used as PLS-DA input to discriminate five samples from two different parts of mushrooms [181].

      Another supervised method considered to classify similar samples is linear discriminant analysis (LDA). LDA searches for directions with maximum separation among the classes. LDA was used by Valdés et al. [181] to classify seven cultivars of almonds analyzing their skin, which is a by-product from almond manufacture. TPC, antioxidant activity and flavonoid content were used as input variables for LDA and a good classification was achieved using two factors [181].

      In addition, MVA could be applied for monitoring a process involving a change into the bioactive compounds profile. For example, FT-NIR coupled to PCA and LDA was used as a characterization method for fortified fermented milk with two sources of antioxidants (grape and olive pomaces by-products). PCA was used to eliminate outliers from the original data set and LDA was used as a classification tool and a variable selection method [182]. In another example, pork sausages were enriched with two concentrations of polyphenols and physiochemically and microbiologically monitored during 14 days of storage. In this case PCA and PLS-DA determined matches among samples [183].

      Spectroscopy could be typically coupled with MVA to monitoring different processes. For example, in commercial production of wines the use of the correct yeast strain is critical. Moore et al. [184], studied the composition of 40 yeast strains inoculated into grape must and analyzed them using FT-MIR using PCA, OPLS-DA. PCA-plot allowed discrimination of strains from laboratory and industrial strains. By OPLS-DA a better classification of the samples into the two target groups could be performed, caused by the modifications induced to cell wall structure in the selection processes of yeast domestication [184].

      The authenticity of a product or an ingredient is of outmost relevance in several industries in order to cover legal aspects and favor economic performance. PLS-DA was applied to FT-MIR spectroscopy to classify samples of adulterated rosehip oil with others lowly economical edible oils (soybean, corn and sunflower). The results show an excellent separation of the samples, including adulterations with a proportion of 5% of non-rosehip oils [185].

Area of interest Product Analytical technique Multivariate method Refs.
Unsup. Sup.
Geographical discrimination Propolis RP-HPTLC DART-MS PCA [177]
Botanical discrimination Wheat grains GC-FID TPC DPPH PCA [178]
Botanical discrimination Raspeberry buds HPLC-DAD PCA, CA [179]
Geographical discrimination Mushrooms UV–spectroscopy UFLC HCA PLS-DA [180]
Botanical discrimination By-product exploitation Almonds skin TPC HPLC-MS LDA [181]
Monitoring a food process By-product exploitation Fermented milk (fortified with olive and grape by-products) FT-NIR PCA LDA [182]
Monitoring a food process By-product exploitation Sausage fortification with olive by-product GC–MS PLS-DA [183]
Monitoring changes in yeasts during wine fermentation Yeasts from wine fermentation FT-MIR PCA PLS-DA OPLS-DA [184]
Food
Скачать книгу
Librs.Net