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Blood-letting punctures at twelve Jing-Well points of the hand can treat cerebral ischemia in a similar manner to mannitol 被引量:16
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作者 Xuan Lu Zelin Chen +4 位作者 Yi Guo Liang Gao Liyuan Jiang Zhongzheng Li Jianqiao Fang 《Neural Regeneration Research》 SCIE CAS CSCD 2013年第6期532-539,共8页
A rat model of middle cerebral artery permanent occlusion was established using the modified Longa method. Successfully established model animals were treated by blood-letting puncture at twelve Jing-Well points of th... A rat model of middle cerebral artery permanent occlusion was established using the modified Longa method. Successfully established model animals were treated by blood-letting puncture at twelve Jing-Well points of the hand, and/or by injecting mannitol into the caudal vein twice daily. Brain tissue was collected at 24, 48 and 72 hours after modeling, and blood was collected through the retinal vein before Evans blue was injected, approximately 1 hour prior to harvesting of brain tissue. Results showed that Evans blue leakage into brain tissue and serum nitric oxide synthase activity were significantly increased in model rats. Treatment with blood-letting punctures at twelve Jing-Well points of the hand and/or injection of mannitol into the caudal vein reduced the amount of Evans blue leakage into the brain tissue and serum nitric oxide synthase activity to varying degrees. There was no significant difference between single treatment and combined treatment. Experimental findings indicate that blood-letting punctures at twelve Jing-Well points of the hand can decrease blood-brain barrier permeability and serum nitric oxide synthase activity in rats following middle cerebral artery occlusion, and its effect is similar to that of mannitol injection alone and Jing-Well points plus mannitol injection. 展开更多
关键词 neural regeneration brain injury Jing-Well points of hand acupoint blood-letting MANNITOL middlecerebral artery occlusion cerebral ischemia cerebral infarction blood-brain barrier nitric oxidesynthase cerebral edema neuroprotection grants-supported paper neuroregeneration
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