Ultrasonic-assisted extraction and biological activities of traditional Chinese/Mongolian medical herb Artemisia ordosica Krasch. using natural deep eutectic solvents

草本植物 萃取(化学) 共晶体系 传统医学 自然(考古学) 植物 草药 材料科学 化学 色谱法 生物 医学 冶金 古生物学 合金
作者
Yuemei Wang,Zhen Wu,Mengmeng Wang,Zhanfei She,Bin Xiao,Hailong Hong
出处
期刊:Microchemical Journal [Elsevier BV]
卷期号:213: 113669-113669 被引量:1
标识
DOI:10.1016/j.microc.2025.113669
摘要

• NADES showed better extraction performance than traditional organic solvents. • Bet-EG was screened out for extraction polyphenol and flavonoid compounds from AOK. • Bet-EG extract showed better biological activity property than traditional solvents. • The yields of TPC and TFC optimized by RSM were 16.234 and 44.528 mg/g, respectively. To fully exploit the medicinal potential of Artemisia ordosica Krasch. (AOK) in traditional Chinese/Mongolian medicine, we identified betaine-ethylene glycol (Bet-EG), an outstanding high-performance natural deep eutectic solvent (NADES), and applied it in conjunction with ultrasonic-assisted extraction to obtain polyphenolic and flavonoid bioactive constituents. Both one-way and response surface multifactorial approaches were used to investigate the effect of NADES composition and ultrasonic extraction parameters, including time, power, temperature, and liquid–solid ratio of AOK. Box-Behnken experimental design revealed optimal extraction parameters for total phenol content (TPC) and total flavonoid content (TFC): 2.10 h extraction time at 40 °C, with a 154 mL/g solvent/solid ratio, accompanied by water contents of 8.60 wt% and 8.00 wt%, respectively. Under these optimized conditions, the extraction efficiencies of TPC and TFC reached 16.234 ± 0.675 mg GAE/g and 44.528 ± 0.833 mg RE/g, respectively, representing 3.059- and 4.171-fold increases compared to conventional water extraction. The underlying mechanism was successfully modeled and validated through second-order kinetics. Comparative analyses demonstrated Bet-EG’s superior performance over conventional solvents in both polyphenol/flavonoid recovery and bioactivity preservation, specifically regarding antioxidant capacity and mast cell-stabilizing effects. FE-SEM analysis further revealed the solvent’s enhancement effect and influence by Bet-EG through the extraction process. In conclusion, the present study established a straightforward, efficient, sustainable protocol for extracting polyphenols and flavonoids from AOK. This method warrants further investigation for industrial scale-up in the pharmaceutical and cosmetic fields.
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