Enhancing lutein extraction from marigolds through ultrasound-assisted optimization using response surface methodology

Panthakant Janepinich, Chutimon Satirapipathkul, Naparat Kasetsomboon, Piyaphong Yongphet
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Abstract

This research aimed to enhance and optimize the ultrasound-assisted extraction (UAE) of lutein from marigold flowers. The Response Surface Methodology (RSM) was the primary optimization technique. Three key independent variables were considered to determine the best conditions for the highest lutein yield: ultrasonic amplitude, extraction temperature, and extraction time. These variables were systematically varied following the Central Composite Design (CCD). Lutein quantitation was achieved using ultraviolet-visible spectrophotometry analysis. Using both the RSM and CCD frameworks, the study established specific ranges for the operational conditions: 21.6–38.4% for ultrasonic amplitude, 23.18–56.82 °C for extraction temperature and 3.18–36.82 minutes for extraction duration. The study determined the optimal extraction conditions to be 32.76% ultrasonic amplitude, 40.08 °C extraction temperature, and 25.82 minutes of extraction time. Under these optimized conditions, the experimental lutein yield closely matched the yield predicted by the RSM model, thus confirming the model's accuracy. The UAE demonstrated a notably superior lutein yield compared to traditional extraction techniques. The RSM is a robust tool for refining and determining optimal UAE conditions for lutein extraction from marigold flowers. With its efficiency, speed, and eco- friendliness, the optimized UAE technique presents significant potential for widespread industrial use.
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超声辅助响应面法优化万寿菊叶黄素的提取
本研究旨在加强和优化超声辅助提取万寿菊叶黄素的工艺。响应面法(RSM)是优选的主要方法。考虑了三个关键的自变量来确定叶黄素得率最高的最佳条件:超声振幅、提取温度和提取时间。采用中心组合设计(CCD)系统地改变这些变量。采用紫外可见分光光度法测定叶黄素含量。采用RSM和CCD框架,确定了具体的操作条件范围:超声振幅为21.6 ~ 38.4%,提取温度为23.18 ~ 56.82℃,提取时间为3.18 ~ 36.82 min。研究确定最佳提取条件为超声振幅32.76%,提取温度40.08℃,提取时间25.82 min。在此优化条件下,叶黄素的实验产率与RSM模型预测产率基本吻合,验证了模型的准确性。与传统的提取技术相比,阿联酋的叶黄素产量显著提高。RSM是一种完善和确定从万寿菊中提取叶黄素的最佳UAE条件的强大工具。由于其效率、速度和生态友好性,优化后的UAE技术具有广泛的工业应用潜力。
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