Optimisation of biological and physical parameters for lycopene supercritical CO2 extraction from ordinary and high-pigment tomato cultivars
Articolo
Data di Pubblicazione:
2010
Abstract:
BACKGROUND: Lycopene is used for several industrial applications. Supercritical CO2 (SC-CO2) extraction from red-ripe tomato
fruits is an excellent technique to replace the use of harmful solvents. In this study, starting from red-ripe tomatoes of ordinary
and high-lycopene cultivars, the effect of different agronomical and technical aspects on lycopene content, stability and yield
was evaluated throughout the production process from fresh tomatoes to the final SC-CO2-extracted oleoresin containing
lycopene.
RESULTS: Red-ripe tomato cultivars differed in their lycopene content. Irrigation excess or deficit caused an increase in the
amount of lycopene in the fruits. Fresh tomatoeswere processed into a lyophilised matrix suitable for SC-CO2 extraction,which
could be stored for more than 6months at -20 oC without lycopene loss. Under the optimal extraction conditions, efficiencies
of up to 80% were achieved, but the recovery of lycopene in the extracted oleoresin was very low (~24%). Co-extraction of the
tomato matrix mixedwith a lipid co-matrix allowed the recovery of~90% of lycopene in the oleoresin. Using the high-lycopene
cultivars, the yield of total extracted lycopene increased by ~60% with respect to the ordinary cultivars. Lipids and other
biologically active molecules were present in the oleoresin.
CONCLUSION: A method for extracting, from a tomato matrix, a natural and solvent-free oleoresin containing lycopene
dissolved in a highly unsaturated vegetable oil has been described. The oleoresin represents an excellent product for testing
on cancer and cardiovascular disease prevention.
fruits is an excellent technique to replace the use of harmful solvents. In this study, starting from red-ripe tomatoes of ordinary
and high-lycopene cultivars, the effect of different agronomical and technical aspects on lycopene content, stability and yield
was evaluated throughout the production process from fresh tomatoes to the final SC-CO2-extracted oleoresin containing
lycopene.
RESULTS: Red-ripe tomato cultivars differed in their lycopene content. Irrigation excess or deficit caused an increase in the
amount of lycopene in the fruits. Fresh tomatoeswere processed into a lyophilised matrix suitable for SC-CO2 extraction,which
could be stored for more than 6months at -20 oC without lycopene loss. Under the optimal extraction conditions, efficiencies
of up to 80% were achieved, but the recovery of lycopene in the extracted oleoresin was very low (~24%). Co-extraction of the
tomato matrix mixedwith a lipid co-matrix allowed the recovery of~90% of lycopene in the oleoresin. Using the high-lycopene
cultivars, the yield of total extracted lycopene increased by ~60% with respect to the ordinary cultivars. Lipids and other
biologically active molecules were present in the oleoresin.
CONCLUSION: A method for extracting, from a tomato matrix, a natural and solvent-free oleoresin containing lycopene
dissolved in a highly unsaturated vegetable oil has been described. The oleoresin represents an excellent product for testing
on cancer and cardiovascular disease prevention.
Tipologia CRIS:
01.01 Articolo in rivista
Keywords:
Antioxidants; Carotenoids; Lycopersicon esculentum (Mill.); Oleoresin; Tomato matrix
Elenco autori:
Durante, Miriana
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