Objective:To compare the content of total saponins in Paridis Rhizome from Wudang mountain area to explore the cor-relation between the quality of medicinal materials and the production areas and species. Methods: The content of total saponins in Paridis Rhizome was determined by an ultraviolet-visible spectrophotometer at 406nm with perchloric acid as the chromogenic reagent. Results:The saponins content in Paridis Rhizome from Wudang mountain area had obvious differences:the minimum was 1. 29%, and the maximum was up to 10. 22%. The content of total saponins had no obvious correlation with species, production area and altitude. Conclusion:The quality of Paridis Rhizome is unstable in Wudang mountain area, and that will affect the effectiveness and safety of the clinical medication. Only by promoting the standardized planting of Chinese medicine materials, the stable quality of Paridis Rhizo-me can be ensured.

Objective:To investigate the distribution of four polyphyllins in different parts of paris polyphylla by means of compa-ring the contents of relative constituents in paridis rhizome and fibril to provide reference for comprehensive exploitation and utilization of paris polyphylla. Methods:Paris polyphylla samples were collected from Wudang mountain area and Shennongjia forest area. The contents of main secondary metabolites including polyphillinⅠ,Ⅱ,Ⅵ andⅦin paridis rhizome and fibril were evaluated by HPLC. Results:The four polyphyllins contents had obvious differences in different parts of polyphylla. The total content of four polyphillins in fibril was significantly higher than that in rhizome. Diosgenin compositions had no significant difference in the two parts, and the con-tents of pennogenin compositions in fibril showed significantly higher than those in rhizome. Conclusion:As for the main chemical com-positions contained in polyphylla, there is chemistry equality between fibril and rhizome, thus both of them can be used for medicine. However, as for the contents of four steroidal saponins, the distribution of secondary metabolites has obvious difference between fibril and rhizome, and the result may be caused by steroidal saponins transferred to rhizome for storage after the synthesis in fibril.

Objective To describe a rhesus monkey model of temporal lobe epilepsy (TLE) established via repetitive unilateral intra-amygdala kainic acid (KA) injection and provide experimental basis for epileptogenic network and related research. Methods Eight male adult rhesus monkeys were randomly divided into KA injection group (n=6) and saline injection group (n=2). Brain stereotaxic technique, micro catheter implantation into the right amygdaloid nucleus, subcutaneous bladder connection, and continuous video-EEG monitoring were performed, and KA or saline injection into their right amygdala was achieved. Interictal epileptic discharges (IEDs), ictal discharges and behavioural performance between the two groups were compared right after injection and within 6 months of first discharge. Results Typical IEDs were recorded in the 6 monkeys from KA injection group after 2-4 times of KA injection, with focal spike waves discharges at the right temple area as manifestation; ictal discharges were recorded in 4 monkeys, with discharge patterns of discharges from the right temple area to the whole brain as manifestation, and during epileptic attack, these 4 monkeys suddenly stopped and dumbfounded without obvious limb seizures. Monkeys from the saline injection group showed no obvious abnormal behaviors. Conclusion Through a modified protocol of unilateral repetitive intra-amygdala KA injection, a rhesus monkey model with high similarity of behavioral and brain electrical features to TLE is developed.