Extraction was performed with an au

Extraction was performed with an automated Spe-ed SC-CO2
extraction NP model 7100 instrument (Applied Separation Inc.,
Allentown, PA, USA) equipped with a pump (Module 7100) and a
10-mL thick-walled stainless cylindrical extractor vessel. Carbon
dioxide from a CO2 liquid cylinder (Praxair Product Inc., Kitchener,
Ontario, Canada) was pressurized and pumped into the system. A flow meter (Applied Separation Inc., Allentown, PA, USA) was used
for manually adjusting desired flow rate and continuous measurement.
The extractor was filled with defatted cotton in both ends to
keep the CO2 from transporting solids out of the extraction chamber.
Different levels of the parameters listed in Table 1 were used
after assembling the vessel and pumping CO2. Extraction time
was set to 90 min. The extractor vessel was rinsed with ethanol
after each extraction. To minimize the decomposition and oxidation
of extracted compounds, all samples were collected in a
25 mL brown sample vial to prevent UV-activated degradation
and stored under refrigeration prior to quantitative analysis. Collected
extracts were dissolved in 4 mL hexane and transferred to
5 mL brown vials. Extracts were dried under nitrogen and stored
at 20 C. Then the extracted lycopene-rich samples were
dissolved in 2 mL hexane before HPLC analysis.