结论螺旋藻多糖具有一定的抗衰老作用。
CONCLUSION Polysaccharide spirulina had the effect of resisting decrepitude.
结论:螺旋藻多糖胶囊处方筛选及制剂工艺可行。
Conclusion: The prescription screening and pharmaceutics technology of Spirulina Polysaccharide Capsule is feasible.
观察螺旋藻多糖对青春双歧杆菌及乳杆菌的促进作用。
The above results suggested that PSP posses certain hypoglycemic effect and deserve to further studying.
所述螺旋藻多糖与银杏叶提取物的质量比优选为2∶1。
The preferred mass ratio of the spirulina polysaccharide to the folium ginkgo extract is 2:1.
该文仅就近年对螺旋藻多糖生物学活性研究进展作一综述报道。
This paper reviewed the advances in research and Applications of the biological activities of the PSP in recent years.
为研究螺旋藻多糖对小鼠免疫功能的调节作用,将螺旋藻多糖分别以低剂量6。
To study the immune-regulatory effects of spirulina polysaccharide sp on mice, the different dosage of spirulina polysaccharide 6.
螺旋藻多糖和藻胆卵白可以无效加强宠物免疫零碎,临时运用能够降低宠物罹患咳嗽、伤风、发热。
Disease Reduction Polysaccharides and phycobilins in Spirulina can enhance the immunity system, long term use can efficiently reduce diseases such as cough, cold, and fever.
目的研究螺旋藻多糖对老龄小鼠脑、肝组织中超氧化物歧化酶(SOD)和丙二醛(MDA)含量的影响。
RESULTS Polysaccharide spirulina can significantly strengthenol SOD activity and reduced content of MDA in brain and her of senile mouse.
方法:将螺旋藻多糖(PSP)与银杏叶有效成分(GBE)按不同剂量、多种比例复合,加入含肿瘤细胞的培养板中,MTT法分别测定其对人肝癌7402细胞增殖的影响。
Methods:Mixed Polysaccharides of Spirulina Platensi (PSP) with active ingredient of Ginkgo Biloba L (GBE) at different ratios and doses, were added into in culture plates with 7402 cells.
同时实验中还发现钝顶螺旋藻在较长时间UV-B处理下没有明显的细胞损伤,这为藻类多糖的生产提供了一个新思路。
Spirulina plalensis showed no cellular damage during the longer period of UV-B enhancement treatment, that may provide a new way for polysaccharides production.
同时实验中还发现钝顶螺旋藻在较长时间UV-B处理下没有明显的细胞损伤,这为藻类多糖的生产提供了一个新思路。
Spirulina plalensis showed no cellular damage during the longer period of UV-B enhancement treatment, that may provide a new way for polysaccharides production.
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