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Optimization of Microwave-Assisted Extraction of Antihepatotoxic Triterpenoid from Actinidia deliciosa Root and Its Comparison with Conventional Extraction Methods

Xinpeng Bai1,2, Aiyong Qiu1* and Junjun Guan3


1
The Key Laboratory of Food Science and Safety, Ministry of Education, Southern Yangtze University, Wuxi 214036, PR China

2College of Science and Engineering, South China University of Tropical Agriculture, Hainan 571737, PR China
3College of Bioengineering, Henan University of Technology, Zhengzhou 450052, PR China

Article history:

Received April 26, 2006
Accepted September 25, 2006

Key words:
microwave-assisted extraction (MAE), Actinidia deliciosa root, triterpenoid, response surface methodology

Summary:

A simple and rapid microwave-assisted extraction (MAE) procedure has been developed and optimized for extracting triterpenoids (TTP) from the Actinidia deliciosa root. Several variables that could potentially affect the extraction efficiency, namely extraction time (min), ethanol fraction (%), liquid:solid ratio (volume per mass) and microwave power (W) have been optimized by means of response surface methodology (RSM). The results suggest that ethanol concentration and microwave power were statistically most significant factors. The optimal conditions were determined and three-dimensional response surfaces were plotted from the mathematical models. The optimum conditions were ethanol fraction 72.67 %, microwave power 362.12 W, liquid:solid ratio (volume per mass) 15:1 and extraction time 30 min. Under the optimum operating conditions, the percentage of extracted TTP was 84.96 %, and MAE showed significantly higher recoveries than those obtained by the conventional extraction methods (ultrasonic and reflux extraction). In addition, a drastic reduction of the extraction time (30 min vs. 8 h) and solvent consumption (15 vs. 30) was achieved, comparable with that provided by the reflux extraction as a reference method.

 


*Corresponding author:           aiyongqiu2001@yahoo.com.cn
                                               ++86 510 85 864 893
                                               ++86 510 85 864 893

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