青蒿
青蒿素
超临界二氧化碳
响应面法
萃取(化学)
色谱法
化学
中心组合设计
超临界流体
二氧化碳
乙醇
己烷
溶剂
产量(工程)
超临界流体萃取
材料科学
恶性疟原虫
有机化学
疟疾
医学
免疫学
冶金
作者
Ozan N. Ciftci,Jessica Cahyadi,Selma E. Guigard,Marleny D.A. Saldaña
标识
DOI:10.1002/elps.201800084
摘要
Abstract Malaria is a high priority life‐threatening public health concern in developing countries, and therefore there is a growing interest to obtain artemisinin for the production of artemisinin‐based combination therapy products. In this study, artemisinin was extracted from the Artemisia annua L. plant using supercritical carbon dioxide (SC‐CO 2 ) modified with ethanol. Response surface methodology based on central composite rotatable design was employed to investigate and optimize the extraction conditions of pressure (9.9–30 MPa), temperature (33–67°C), and co‐solvent (ethanol, 0–12.6 wt.%). Optimum SC‐CO 2 extraction conditions were found to be 30 MPa and 33°C without ethanol. Under optimized conditions, the predicted artemisinin yield was 1.09% whereas the experimental value was 0.71 ± 0.07%. Soxhlet extraction with hexane resulted in higher artemisinin yields and there was no significant difference in the purity of the extracts obtained with SC‐CO 2 and Soxhlet extractions. Results indicated that SC‐CO 2 and SC‐CO 2 +ethanol extraction is a promising alternative for the extraction of artemisinin to eliminate the use of organic solvents, such as hexane, and produce extracts that can be used for the production of antimalarial products.
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