[1] Lu C, Hua F, Liu L, et al. Scavenger receptor class-A has a central role in cerebral ischemia-reperfusion injury[J]. J Cereb Blood Flow Metab, 2010, 30(12): 1972-1981. [2] Siesj B K, Zhao Q, Pahlmark K, et al. Glutamate, calcium, and free radicals as mediators of ischemic brain damage[J]. Ann Thorac Surg, 1995, 59(5): 1316-1320. [3] Chi OZ, Hunter C, Liu X, et al. Effects of exogenous excitatory amino acid neurotransmitters on blood-brain barrier disruption in focal cerebral ischemia[J].Neurochem Res, 2009, 34(7): 1249-1254. [4] 李茜,陈兴东,段满林.急性脑缺血对机体免疫系统的影响[J].医学研究生学报,2013,26(6):654-657. [5] 孙丽荣,曹雄,侯凤青,等.芍药苷研究进展[J].中国中药杂志,2008,33(18):2028-2032. [6] Zhang M H, Feng L, Zhu M M, et al. Antioxidative and anti-inflammatory activities of paeoniflorin and oxypaeoniflora on AGEs-induced mesangial cell damage[J]. Planta Med, 2013, 79(14): 1319-1323. [7] 胡增峣 ,徐岚,闫蓉,等.芍药苷作用于神经系统的研究进展[J].中国中药杂志,2013,38(3):297-301. [8] Kapoor S. Neuroprotective effects of paeoniflorin: an emerging concept in neurology[J]. Folia Neuropathol, 2013, 51(1): 92. [9] Xiao L, Wang Y Z, Liu J, et al. Effects of paeoniflorin on the cerebral infarction, behavioral and cognitive impairments at the chronic stage of transient middle cerebral artery occlusion in rats[J]. Life Sci, 2005, 78(4): 413-420. [10] Liu D Z, Xie K Q, Ji X Q, et al. Neuroprotective effect of paeoniflorin on cerebral ischemic rat by activating adenosine A1 receptor in a manner different from its classical agonists[J]. Br J Pharmacol, 2005, 146(4): 604-611. [11] Guo R B, Wang G F, Zhao A P, et al. Paeoniflorin protects against ischemia-induced brain damages in rats via inhibiting MAPKs/NF-κB-mediated inflammatory responses[J]. PLoS One, 2012, 7(11): e49701. [12] 刘静.芍药甙对动物全脑缺血的保护作用及其机制研究[D].上海:中国科学院上海药物研究所博士学位论文,2006:24. [13] Chen Q, Zeng Y M, Xu P C, et al. Influence of batroxobin on cerebral ischemia-reperfusion injury in gerbils[J]. Acta Pharmacol Sin, 2000, 21(2): 161-164. [14] Ito U, Hakamata Y, Yamaguchi T, et al. Cerebral ischemia model using mongolian gerbils-comparison between unilateral and bilateral carotid occlusion models[J]. Acta Neurochir Suppl, 2013, 118(1): 17-21. [15] Chen B M, Xia L M, Zhao R Q. Determination of NG, NG-dime-thylarginine in human plasma by high-performance liquid chromatography[J]. Journal of Chromatography B, 1997, 692(2): 467-471. [16] 夏强,钱令波.心脑缺血再灌注损伤的机制及防治策略研究进展[J].浙江大学学报:医学版,2010,39(6):551-558. [17] Jorgensen P L, Pedersen P A. Structure-function relationships of Na+, K+, ATP, or Mg2+ binding and energy transduction in Na, K-ATPase[J]. Biochim Biophys Acta, 2001, 1505(1): 57-74. [18] Jung Y W, Choi I J, Kwon T H. Altered expression of sodium transporters in ischemic penumbra after focal cerebral ischemia in rats[J]. Neurosci Res, 2007, 59(2): 152-159. [19] 冯国清,吴红霞,王振基,等.前列腺素E1对脑缺血再灌注损伤的保护作用[J].中国药理学通报,2003,19(4):427-431. [20] Koizumi H, Fujisawa H, Suehiro E, et al. Neuroprotective effects of ebselen following forebrain ischemia: involvement of glutamate and nitric oxide[J]. Neurol Med Chir, 2011, 51(5): 337-343. [21] Bie X, Chen Y, Han J, et al. Effects of gastrodin on amino acids after cerebral ischemia-reperfusion injury in rat striatum[J]. Asia Pac J Clin Nutr, 2007, 16(1): 305-308. [22] Chao X D, Fei F, Fei Z. The role of excitatory amino acid transporters in cerebral ischemia [J]. Neurochem Res, 2010, 35(8): 1224-1230. [23] 张焰,陈群,顾卫东,等.灯盏花素对缺血再灌注沙土鼠海马ATP含量变化和兴奋性氨基酸释放的影响[J].江苏医药,2005,31(11):843-845. [24] Kuang P, Xiang J. Effect of radix salviae miltiorrhizae on EAA and IAA during cerebral ischemia in gerbils: a microdialysis study [J]. J Tradit Chin Med, 1994, 14(1): 45-50. [25] Saleem S, Ahmad M, Ahmad A S, et al. Effect of Saffron (Crocus sativus) on neurobehavioral and neurochemical changes in cerebral ischemia in rats[J]. J Med Food, 2006, 9(2): 246-253. |