Recycling of Wastes from Traditional Chinese Medicine Production by Wet Ultrafine Grinding Technology and Other Three Methods (I)——Recycling of Polysaccharide in Mailuoning Injection Production Waste Dendrobii Mobile Dregs

LIU Shuang-shuang; LIU Li-fang; ZHU Hua-xu; GUO Li-wei; DUAN Jin-ao; PAN Yong-lan; XU Xiang-qian

doi:10.13422/j.cnki.syfjx.2016220034

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Recycling of Wastes from Traditional Chinese Medicine Production by Wet Ultrafine Grinding Technology and Other Three Methods (I)——Recycling of Polysaccharide in Mailuoning Injection Production Waste Dendrobii Mobile Dregs

更新时间：2024-01-04

- Recycling of Wastes from Traditional Chinese Medicine Production by Wet Ultrafine Grinding Technology and Other Three Methods (I)——Recycling of Polysaccharide in Mailuoning Injection Production Waste Dendrobii Mobile Dregs
- Chinese Journal of Experimental Traditional Medical Formulae Vol. 22, Issue 22, Pages: 34-40(2016)
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- DOI：10.13422/j.cnki.syfjx.2016220034
  CLC： R28
- Published：2016
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LIU Shuang-shuang, LIU Li-fang, ZHU Hua-xu, et al. Recycling of Wastes from Traditional Chinese Medicine Production by Wet Ultrafine Grinding Technology and Other Three Methods (I)——Recycling of Polysaccharide in Mailuoning Injection Production Waste Dendrobii Mobile Dregs[J]. Chinese journal of experimental traditional medical formulae, 2016, 22(22): 34-40.
DOI：

LIU Shuang-shuang, LIU Li-fang, ZHU Hua-xu, et al. Recycling of Wastes from Traditional Chinese Medicine Production by Wet Ultrafine Grinding Technology and Other Three Methods (I)——Recycling of Polysaccharide in Mailuoning Injection Production Waste Dendrobii Mobile Dregs[J]. Chinese journal of experimental traditional medical formulae, 2016, 22(22): 34-40. DOI： 10.13422/j.cnki.syfjx.2016220034.

摘要

目的：通过4种不同提取方法用于中药生产中废弃物的多糖资源化的比较研究，优选出脉络宁注射液生产废弃物石斛药渣中提取多糖的方法，实现对中药资源的再循环利用。方法：采用酶解法、湿法超微粉碎法、超声法和加热回流法分别提取石斛药渣中石斛多糖，以苯酚-硫酸法测定其多糖提取率；通过单因素考察和正交试验对提取率最高的提取方法进行工艺优选；考察石斛药渣多糖（DDP）对小鼠脾淋巴细胞的代谢转化和小鼠单核巨噬细胞RAW264.7释放一氧化氮（NO）能力的影响。结果： 4种提取方法的多糖提取率分别为0.51%，8.79%，5.34%，3.44%，确定最佳提取方法为酶解；其最佳酶解条件：pH 5.3，料液比1：55，温度50℃，酶活性4 000 U·g-1，提取时间300 min；与对照组比较，质量浓度在62.5～125 mg·L-1，DDP显著促进小鼠脾淋巴细胞增殖，DDP与脂多糖（LPS）协同促进作用显著（P<0.05，P<0.01），质量浓度为62.5 mg·L-1 时，DDP与ConA协同促进作用显著（P<0.05），质量浓度在62.5～500 mg·L-1，DDP对小鼠单核巨噬细胞RAW264.7产生NO的促进作用极显著（P<0.01）。结论：酶解法提取石斛药渣中多糖的工艺简便、得率稳定，具免疫增强作用，具有推广应用价值。

Abstract

Objective: To compare four different extraction methods for recycling wastes from traditional Chinese medicine production

in order to select the optimal method to extract polysaccharide from Mailuoning injection production waste Dendrobii Mobile dregs. Method: The four methods

namely wet ultrafine grinding method

enzyme method

ultrasonic method

heating reflux method

were adopted. The polysaccharide extraction rate was detected by phenol sulfuric acid colorimetry; the process with the highest extraction rate was determined by single factor and orthogonal test; the effect of Dendrobii Mobile dregs polysaccharide(DDP) on the proliferation and transformation of lymphocytes in mouse and the NO release of macrophage RAW264.7 were investigated. Result: The polysaccharide extraction rates of Dendrobii Mobile dregs by the above four different methods were 0.51%

8.79%

5.34%

3.44%

respectively. The optimal extraction method was determined to be the enzymolysis; its optimal enzymolysis conditions were pH at 5.3

solid-liquid ratio at 55

temperature at 50℃

enzyme dosage of 4 000 U·g-1

extraction time of 300 minutes. Compared with control group

DDP significantly enhanced the proliferation of splenic lymphocytes at concentrations between 62.5-125 mg·L-1

with an obvious synergistic effect between DDP and lipopolysaccharide(LPS) (P<0.05

P<0.01); at the concentration of 62.5 mg·L-1

DDP showed a significant synergistic effect with ConA (P<0.05); at concentrations between 62.5-500 mg·L-1

DDP played a notable role in promoting NO release of mouse macrophage RAW264.7 (P<0.01). Conclusion: Enzyme extraction process of polysaccharide from Dendrobii Mobile dregs was simple and stable

with the effect in immune enhancement

and worth clinical promotion.

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