Abstract
Background Lotus leaves are obtained from plants belonging to the genus Nelumbo in the Nymphaeaceae family. They serve both as agricultural produce and traditional Chinese medicinal herbs. Nuciferine, an amorphine alkaloid found in lotus leaves, holds significance due to its anti-inflammatory, lipid-lowering, and hypoglycemic properties. Objective The factors influencing nuciferine extraction from lotus leaves using the dipping-acid-assisted ultrasonic extraction method (DAUEM) have received limited attention. This study aims to optimize DAUEM conditions (ethanol concentration, solvent-to-material ratio, and ultrasonic extraction time) through a Box-Behnken response surface design. Methods Nuciferine purification from lotus leaves is achieved using D101 macroporous adsorptive resin. A single-factor test, with ethanol concentration ( V/V), solvent-to-material ratio ( V/M), and ultrasonic extraction time as variables, serves as a basis for optimizing the nuciferine extraction process via the response surface methodology. Results The highest nuciferine yield (0.1035 ± 0.005)% was obtained using 74% ethanol ( V/V), a 26:1 solvent-to-material ratio, and an 82min extraction time. Nuciferine purity reached 67.14% using 70% ethanol as the eluent and high-performance liquid chromatography for determination. DAUEM effectively extracts nuciferine from lotus leaves, with optimization achieved using Box-Behnken response surface methodology. D101 macroporous adsorption resin efficiently separates and purifies nuciferine in lotus leaves. Conclusion This experiment demonstrates good precision and accuracy, making it suitable for the extraction, separation, and purification of nuciferine in lotus leaves. The method lays the foundation for the development and utilization of nuciferine.
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