J Han1, W Hu, Z Sun. 1. Department of Neurosurgery, 477 Hospital of PLA, Xiangfan, Hubei, China.
Abstract
OBJECTIVE: To explore the change of nerve cell Ca(2+)-overload, Ca(2+)-CaM and the effect of Panax Notoginseng saponin (PNS) on it in craniocerebral injury. METHODS: Blood and brain contents of Ca2+, CaM were examined by radio-immunoassay (RIA) and atomic absorption spectrometry(AAS), and effect of PNS on these parameters was observed in craniocerebral injury rabbits. RESULTS: The levels of Ca2+ and CaM in blood and those in brain were significantly positively correlated. PNS could reduce Ca2+ and CaM contents in blood and in cerebral tissue. CONCLUSION: PNS could block the Ca(2+)-overload and Ca(2+)-CaM complex production in nerve cell after cranial cerebral injury, thereby to protect the injured brain in a certain degree. Blood CaM level is an objective index for assessment of Ca(2+)-overload in nerve cell.
OBJECTIVE: To explore the change of nerve cell Ca(2+)-overload, Ca(2+)-CaM and the effect of Panax Notoginsengsaponin (PNS) on it in craniocerebral injury. METHODS: Blood and brain contents of Ca2+, CaM were examined by radio-immunoassay (RIA) and atomic absorption spectrometry(AAS), and effect of PNS on these parameters was observed in craniocerebral injury rabbits. RESULTS: The levels of Ca2+ and CaM in blood and those in brain were significantly positively correlated. PNS could reduce Ca2+ and CaM contents in blood and in cerebral tissue. CONCLUSION:PNS could block the Ca(2+)-overload and Ca(2+)-CaM complex production in nerve cell after cranial cerebral injury, thereby to protect the injured brain in a certain degree. Blood CaM level is an objective index for assessment of Ca(2+)-overload in nerve cell.