This application note demonstrates how comprehensive 2D-LC can be used to resolve the
complex mixture of hydrophilic phenols found in virgin olive oil and investigates differences in the phenol composition of
Virgin olive oil is associated with the health and nutritional benefits of the Mediterranean diet. In
this respect, the presence of antioxidants, which are represented by hydrophilic phenols among others, plays an important
Hydrophilic phenols contained in virgin olive oil include phenolic acids and alcohols, flavonoids, secoiridoids, and lignans
One-dimensional liquid chromatography is not able to completely resolve the complex mixture of
hydrophilic phenols present in virgin olive oil (3). Due to its high separation capability, comprehensive 2D-LC can be deployed
improve the separation.
Comprehensive 2D-LC analysis was achieved with the Agilent 1290 Infinity 2D-LC solution. The first
dimension separation used an Agilent ZORBAX RRHD Eclipse Plus Phenyl-Hexyl column (2.1 × 150 mm, 1.8-µm) with a gradient
water and methanol, each with 0.1% formic acid, at a flow rate of 0.05 mL/min. In the second dimension, an Agilent ZORBAX
Plus C18 column (3.0 × 50 mm, 1.8-µm) was used with shifted gradients of water and acetonitrile, each with 0.1% formic acid,
at a flow rate of 3.0 mL/min. Modulation was realized using the Agilent 2-position/4-port duo-valve, equipped with two 60
and with a modulation time of 30 s. Detection was performed at 260 nm and by ESI–TOF–MS in negative ionization mode.
Preparation of olive oil samples was carried out according to the protocol from the International Olive Council (4).
Four different olive oil samples with high phenol content (3) purchased from Italian olive oil farms
were analyzed by comprehensive 2D-LC. Figure 1 (top) exemplarily shows the 2D-LC chromatogram of one olive oil.
MS detection showed that the main hydrophilic phenols present in the analyzed olive oils are aglycons
of oleuropein, ligstroside, and their derivatives. Further, elenolic acid, luteolin, apigenin, hydroxytyrosol, and hydroxytyrosol
were identified in all olive oils analyzed. Compared to the olive oils A–C (from the same farm), olive oil D (from another
showed higher percent responses of the flavonoids apigenin and luteolin (Figure 1, bottom).
Figure 1: Two-dimensional-LC chromatogram of an olive oil at 260 nm (top) and
visualization of differences between the olive oils analyzed (bottom); blue circles indicate higher percent responses and
lower percent responses of substances detected, areas indicate differences.
The Agilent 1290 Infinity 2D-LC solution can be used to significantly improve the separation of
hydrophilic phenols contained in virgin olive oil. This enables the investigation of differences between the compositions
phenols in olive oils.
(1) M. El Riachy et al., Eur. J. Lipid Sci. Technol.
113, 678–691 (2011).
(2) Y. Ouni et al., Food Chemistry
127, 1263–1267 (2011).
(3) S. Schneider, "Quality Analysis of Virgin Olive Oils – Part 6," Agilent
Application Note, publication number 5991-3801EN, (2014).
(4) "Determination of biophenols in olive oils by HPLC," International Olive Council:
COI/T.20/DOC. 29, (2009).
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