Ultrasound-Assisted Aqueous Extraction of Chlorogenic Acid and Cynarin with the Impact of Inulin from Burdock (Arctium lappa L.) Roots

The ultrasound-assisted aqueous extraction of chlorogenic acid (CGA) and cynarin with the impact of inulin from burdock (Arctium lappa L.) roots was investigated. Three extraction modes, ultrasound at 40 kHz/300 W (U-40), ultrasound at 120 kHz/300 W (U-120), and shaking at 120 rpm (S-120), were compared. The effects of process parameters on the extraction of polyphenols, CGA, cynarin, inulin, and antioxidant activity using U-40 were evaluated. In 10 min, 50 degrees C, and 1/30 (g/mL-water) of solid-to-liquid ratio, the order of CGA content in the dried burdock root powder (DBR) was U-40 (484.65 mu g/g-DBR) > U-120 (369.93 mu g/g-DBR) > S-120 (176.99 mu g/g-DBR), while the order of cynarin content in DBR was U-120 (376.47 mu g/g-DBR) > U-40 (341.54 mu g/g-DBR) > S-120 (330.44 mu g/g-DBR), showing the selective extraction of CGA and cynarin between using 40 and 120 kHz of ultrasound. The profiles of increase and then decrease in free CGA and cynarin concentrations against time revealed their degradation, including their interactions with the abundant inulin. The kinetic model, considering extraction followed by degradation, was proposed to describe the variations of free CGA and cynarin against time. This study provides an effective method using water to extract CGA, cynarin, and inulin from burdock roots.

Automated summary

This study investigated the ultrasound-assisted aqueous extraction of chlorogenic acid and cynarin from burdock roots, and the impact of inulin. The results showed that ultrasound at 40 kHz and 120 kHz selectively extracted CGA and cynarin. Additionally, a kinetic model was proposed to describe the variations of free CGA and cynarin over time.