Optimization of Processing Technology of Ginger Carbon by Central Composite Design/Response Surface Methodology

MENG Jiang; XU Shu-ya; LU Guo-yong; LIAO Hua-wei; LIANG Hui-chao; LIN Zhi-Hao

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Optimization of Processing Technology of Ginger Carbon by Central Composite Design/Response Surface Methodology

更新时间：2024-01-04

- Optimization of Processing Technology of Ginger Carbon by Central Composite Design/Response Surface Methodology
- Chinese Journal of Experimental Traditional Medical Formulae Vol. 18, Issue 2, Pages: 8-11(2012)
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- Published：2012
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MENG Jiang, XU Shu-ya, LU Guo-yong, et al. Optimization of Processing Technology of Ginger Carbon by Central Composite Design/Response Surface Methodology[J]. Chinese journal of experimental traditional medical formulae, 2012, 18(2): 8-11.
DOI：

MENG Jiang, XU Shu-ya, LU Guo-yong, et al. Optimization of Processing Technology of Ginger Carbon by Central Composite Design/Response Surface Methodology[J]. Chinese journal of experimental traditional medical formulae, 2012, 18(2): 8-11. DOI：

摘要

目的: 采用星点设计-效应面法优化姜炭的炮制工艺。方法: 采用砂烫法以炮制温度、药材厚度、炮制时间为自变量

吸附力、鞣质含量、6 -姜辣素含量和6 -姜烯酚含量的总评"归一值"为评价指标

对自变量各水平进行多元线性回归和二项式拟合

用效应面法筛选最佳炮制工艺

并进行预测分析。结果: 二项式拟合复合相关系数较高

总评"归一值"为0.870

最佳炮制工艺为炮制温度310 ℃

药材厚度0.55 cm

炮制时间15.5 min。最佳工艺验证结果与二项式拟合方程预测值偏差为-2.59%。结论: 利用星点设计-效应面法优化姜炭提取工艺

方法简便

预测性良好。

Abstract

Objective: To optimize processing technology of ginger carbon by central composite design/response surface methodology. Method: Sand-scorch processing technology was adopted with processing temperature

medicine thickness

processing time as independent variables

and absorption power

the contents of tannins

6-gingerol and 6-shogaol as evaluation indexes

levels of independent were regressed by multiple linear and fitted by binomial

response surface methodology was used to select optimum processing technology

and predictive analyzed. Result: Complex correlation coefficient of binomial fitting was high

and overall 'normalized value’ was 0.870. Optimal processing technology were:processing temperature 310 ℃

medicine thickness 0.55 cm

processing time 15.5 min. Deviation between result of optimum craft verification test and binomial fitting equation forecast value was -2.59 %. Conclusion: Central composite design/response surface method could be used to optimize extraction technology of ginger carbon

and it was simple

had good prediction.

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Related Institution

Sichuan Neo-green Pharmaceutical Technology Development Co. Ltd.，Pengzhou

State Key Laboratory of Southwestern Chinese Medicine Resources，School of Pharmacy， Chengdu University of Traditional Chinese Medicine

Guang'anmen Hospital， China Academy of Chinese Medical Sciences

Institute of Chinese Materia Medica，China Academy of Chinese Medical Sciences

Hubei Meisichuang Pharmaceutical Co. Ltd.

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