ABSTRACT
Objective: To investigate the effect of extraction and reverse extraction conditions on the transfer of isoliquiritin. Methods: The extraction rate of isoliquiritin was used as the index to determine the best composition and concentration of complexing extractant. Taking the reverse extraction rate of isoliquiritin as the index, the species and concentration of the reverse extraction agent were investigated, and finally the technological conditions for the extraction and reverse extraction of isoliquiritin from glycyrrhizin ultrafiltration were obtained. Results: The best complexation extraction condition was: the ratio of TRPO to sulfonated kerosene was 7:93, and the extraction rate of isoliquiritin reached 97.60%. The best reverse extraction agent was 0.26% NaOH aqueous solution, and the reverse extraction rate of isoliquiritin reached 95.40%. Conclusion: Under the optimal conditions of extraction and reverse extraction obtained in this experiment, isoliquiritin can be transferred from glycyrrhizin ultrafiltration to complexing extractant and then to alkaline reverse extraction agent, and finally isoliquiritin can be obtained by extraction and reverse extraction.
ABSTRACT
Objective: A technological route was established for preparing liquiritigenin from the licorice ultrafiltrate. Methods: U5(53) uniform design was used to optimize the ultrafiltration process with the retention rate of liquiritigenin as the index; Box-Behnken response surface method was used to optimize the complexation extraction process with the extraction rate of liquiritigenin as the index; The technological condition of back extraction of liquiritigenin was determined by the liquiritigenin stripping rate. Results: The optimal ultrafiltration conditions for liquiritigenin were inorganic ceramic membranes with a pore size of 10 nm, a pressure of 0.12 MPa, and solution temperature of 25 ℃, retention rate of liquiritigenin was 98.74%. Optimum complexation extraction conditions were as following: 1% TRPO complexing agent, extraction for 10 min in 5 mL organic phase solution, the extraction rate of liquiritigenin was 99.44%; The 12.5 mmol/L NaOH aqueous solution was the best back-extractant, and the back extraction rate was 98.88%. Conclusion: As a new Chinese medicine extraction technology, ultrafiltration-complexation extraction and back extraction technology have the advantages of high selectivity, high efficiency, and recycling of extractant, which can provide a new preparation technology for the research of liquiritigenin.