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OBJECTIVE: To observe the change of EPO in brain of aging rat induced by D-galactose (D-gal) and the EPO-based antiaging of the water extract of Radix Rehmanniae Preparata (WERRP). METHODS: D-gal-treated groups were received subcutaneous injection of D-gal at dose of 50, 150 and 250 mg·kg-1 daily for 8 weeks to imitate an aging model that was induced by oxidative stress. After the detection of EPO in hippocampus, the 150 mg
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This study was aimed to analyze the content variations of chemical constituents produced in fresh Radix Rehmanniae (Xian-Di-Huang) after processing into Radix Rehmanniae Recens (Sheng-Di-Huang) and Radix Rehmanniae Preparata (Shu-Di-Huang). HPLC was used in the study of preparing Xian-Di-Huang into Sheng-Di-Huang, and the processing into Shu-Di-Huang. The contents of two newly produced chemical components, which were 2,3-dihydro-3,5-dihydroxy-6-methyl-4H-pyran-4-one (DDMP) and 5-hydryoxymethyl-furfural (5-HMF). The contents of both chemical components were determined in Sheng-Di-Huang and Shu-Di-Huang bought from the market. The Zorbax SB-C18 column (250 mm í 4.6 mm, 5 μm) was used. The mobile phase was methanol-wa-ter (5:95). The flow rate was 1.0 mL·min-1. The detection wavelength was set at 280 nm. The results showed that no DDMP or 5-HMF was detected in Xian-Di-Huang. However, after processing, DDMP and 5-HMF can be de-tected in both Sheng-Di-Huang and Shu-Di-Huang. The content in Shu-Di-Huang was higher than that in Sheng-Di-Huang. Both contents in Shu-Di-Huang were gradually increased along with processing time. The con-tent reached to the highest level after processing for 24 h and 32 h, respectively. And then, the content decreased. Both DDMP and 5-HMF were detected from three batches of Sheng-Di-Huang and ten batches of Shu-Di-Huang bought from the market. The content of 5-HMF was higher in Shu-Di-Huang than in Sheng-Di-Huang. There was no obvious difference in the content of DDMP between Sheng-Di-Huang and Shu-Di-Huang. It was concluded that DDMP and 5-HMF were produced in the processing Sheng-Di-Huang and Shu-Di-Huang. The contents were gradually increased along with the prolonging of processing time. There was obvious difference in the content of 5-HMF in Shu-Di-Huang and Sheng-Di-Huang.
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Objective: To probe the effects of gross polysaccharide of Radix Rehmanniae Preparata(GPRRP) on the morphology changes of immune organ of blood deficiency model mice.Methods: Using the blood deficiency mice models induced by releasing blood and injection of Cyclophosphamide as the experimental objects,the model animals were divided into 5 groups,that was the large,middle and small dose of GPRRP groups,Danggui Buxue Oral Liquid group,model group,at the same time,giving a blank control group.It was given successively relating drugs to the animals of several groups for 10 days.At the end of the experiment,the hemogram was measured and the thymus and spleen were taken,and making pathological section,then these tissues morphology changes were observed under microscope.Results: GPRRP can obviously resist the atrophy of thymus and spleen induced by the model establishing,can obviously increase the depth of thymus cortex and the number of cortex cells,can enlarge the size of spleen nodules and obviously increase the number of lymphocyte.Conclusion: GPRRP can resist the atrophy of thymus and spleen in blood deficiency model mice.
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AIM:To improve the quality standard of Fuke Yangkun Pill. METHODS: Fructus Viticis was(identified) by micrology,Radix Angelica sinensis,Rhizoma Chuanxiong,Rhizoma Cyperi,Radix Aucklandiae,Rhizoma Corydalis,Radix Rehmanniae,Radix Rehmanniae preparata,Radix Paeoniae alba,Radix et Rhizoma Glycyrrhizae,Fructus Amomi were identified by TLC,baicalin content was determined by HPLC. RESULTS: The TLC spots were fairly clear and distinguishable,the linear range of baicalin was within 3.28-131.2 ?g/mL.The average recovery was 100.4% with RSD 1.0%(n=6). CONCLUSION: The method is simple,and specific,and can be used for quality control of Fuke Yangkun Pill.