ABSTRACT
Objective: To compare the pharmacodynamic action of Radix Notoginseng after fermented by different strains bioconversion.Methods:The models of cerebral ischemia and hypoxia were established,thrombosis in vivo were induced by collagen-Adr,ventricular fibrillation of mice by chloroform,and perfusion experiment of the ex vivo heart of cavia cobaya was used.Results:100,200mg/kg doses of all samples had protective effects on ischemia and hypoxia mice,1# sample can inhibit thrombosis induced by collagen-adrenaline obviously after intraperitoneal injection in dosage of 200mg?kg-1?d-1 for 5days.All groups significantly reduced the incidents of ventricullar fibrillation induced by chloroform in mice except 100mg/kg dose of 1#,furthermore,compared with control high dose group(5#),the incidents of high dose groups of 3、4# deceased significantly.All samples had the effect of dilating coronary artery,but there effects on myocardial contractile force and cardiac preload were different.Conclusion:The primary cardiovascular related pharmacological researches demonstrated the vary action changes of 1-4# samples compared with the sample 5#.This result has revealed that the chemical structure of Radix Notoginseng transformed and that is coincide with initial analysis of phytochemical analysis.
ABSTRACT
Objective In order to reduce the toxicity and still maintain the bioactivity of the medicinal plant Tripterygium wilfordii(TW),the whole plant biotransfomed method was employed.By observing the pharmacological activities and the toxicity of MeOH extracts from the root of T.wilfordii that were biotransformed by the fungi Aspergillums spp.and Rhizopus spp.,the best biotransformed fungi strain has been selected based on the experimental data.Methods Applying the models of acute and chronic inflammation, the weight of immune organ and cell immunity were used to study the pharmacological activities,and ip injection to observe the acute toxicity.Results The anti-inflammation and immunosuppression have been increased slightly and the toxicity decreased significantly after being biotransformed by Aspergillus spp.(TW1),while the anti-inflammation,immunosuppression,and the toxicity have been declined after being biotransformed by Rhizopus spp.(TW2).Conclusion Although both selected fungi could change the pharmacological activities and toxicity of the T.wilfordii,Aspergillus spp.is better than Rhizopus spp.