参考文献/References:
[1] Zhao XY,Wu CF,Yang J,et al.Effect of arginine vasopressin on the cortex edema in the ischemic stroke of Mongolian gerbils[J].Neuropeptides,2015,51:55-62.
[2] Eckhard A,Gleiser C,Rask-Andersen H,et al.Colocalisation of Kir4.1 and A-QP4 in rat and human cochleae reveals a gap in water Channel expression at the transduction sites of endocochlear K+recycling routes[J].Cell&Tissue Research,2012,350(1):27-43.
[3] Hirt L,Fukuda AM,Ambadipudi K,et al.Improved long-term outcome after transient cerebral ischemia in aquaporin-4 knockout mice[J].J Cereb Blood Flow Metab,2017,37(1):277-290.
[4] Zhang Y,Xu K,Liu Y,et al.Increased cerebral vascularization and decreased water exchange across the blood-brain barrier in aquaporin-4 knockout mice[J].PLoS One,2019,14(6):e0218415.
[5] 蒋锡丽,鲁宏,陈建强,等.AQP4基因沉默对脑水肿的影响及影像改变[J].国际医学放射学杂志,2016,39(5):495-499.
[6] Tourdias T,Mori N,Dragonu I,et al.Differential aquaporin 4 expression during edema build-up and resolution phases of brain inflammation[J].J Neuroinflammation,2011,8(1):143.
[7] Alam M,Mohammad A,Rahman S,et al.Hyperthermia up-regulates matrix metalloproteinases and accelerates basement membrane degradation in experimental stroke[J].Neurosci Lett,2011,495(2):135-139.
[8] Jin X,Wang T,Liao Y,et al.Neuroinflammatory reactions in the brain of 1,2-DCE-Intoxicated mice during brain edema[J].Cells,2019,8(9):987.
[9] Wu W,Zhong W,Lang B,et al.Thrombopoietin could protect cerebral tissue against ischemia-reperfusion injury by suppressing NF-κB and MMP-9 expression in rats[J].Int J Med Sci,2018,15(12):1341-1348.
[10] Jiao X,He P,Li Y,et al.The role of circulating tight junction proteins in evaluating blood brain barrier disruption following intracranial hemorrhage[J].Dis Markers,2015:860120.DOI:10.1155/2015/86012.
[11] 李树清,李凡,何亮,等.缺血后适应促进树鼩血栓性脑缺血时紧密连接occludin/ZO-1蛋白表达及抑制脑水肿的机制[J].中国病理生理杂志,2016,32(3):477-484.
[12] Lakhan SE,Kirchgessner A,Hofer M.Inflammatory mechanisms in ischemic stroke: therapeutic approaches[J].J Transl Med,2009,7:97.
[13] Wang Q,Tang XN,Yenari MA.The inflammatory response in stroke[J].J Neuroimmunol,2007,184(1/2):53-68.
[14] Takata F,Dohgu S,Matsumoto J,et al.Brain pericytes among cells constituting the blood-brain barrier are highly sensitive to tumor necrosis factor-alpha, releasing matrix metalloproteinase-9 and migrating in vitro[J].Journal of Neuroinflammation, 2011,8:106.
[15] Grossman R,Tyler B,Rudek MA,et al.Microdialysis measurement of intratumoral temozolomide concentration after cediranib, a pan-VEGF receptor tyrosine kinase inhibitor, in a U87 glioma model[J].Cancer Chemother Pharmacol,2013,72(1):93-100.
[16] 刘永刚,张学勇,姜凤,等.炎性因子IL-1β与出血性脑水肿形成的相关性研究[J].中国医学创新,2019,16(6):119-122.
[17] Zhang Y,Wang J,Zhang Y,et al.Overexpression of long noncoding RNA Malat1 ameliorates traumatic brain injury induced brain edema by inhibiting AQP4 and the NF-κB/IL-6 pathway[J].J Cell Biochem,2019,120(10):17584-17592.
[18] Song Y,Yang Y,Cui Y,et al.Lipoxin a4 methyl ester reduces early brain injury by inhibition of the nuclear factor kappa B(NF-κB)-Dependent matrix metallopeptidase 9(MMP-9)pathway in a rat model of intracerebral hemorrhage[J].Med Sci Monit,2019,25:1838-1847.
[19] Yang C,Hawkins KE,Doré S.Neuroinflammatory mechanisms of blood-brain barrier damage in ischemic stroke[Z],2018.
[20] Forsyth R,Baxter P,Elliott T.Routine intracranial pressure monitoring in acute coma[J].Cochrane Database Syst Rev,2001,(3):CD002043.DOI:10.1002/14651858.CD002043.
[21] Wei J J,Kang D Z,Zhao Y L,et al.Expert consensus on criti-cal care management in neurosurgery(2013)[J].Chinese Journal of Cerebrovascular Disease,2013,10(8):436-448.
[22] 冯鸿飞.颅内压监测在急性颅脑损伤救治中的应用[J].内蒙古中医药,2013,32(33):4.
[23] 梁强,邵淑琦,段磊.颅内压监测研究进展[J].中国神经精神疾病杂志,2019,45(4):242-245.
[24] Zhang X,Medow JE,Iskandar BJ,et al.Invasive and noninvasive means of measuring intracranial pressure: a review[J].Physiol Meas,2017,38(8):R143-R182.
[25] Aiolfi A,Benjamin E,Khor D,et al.Brain trauma foundation guidelines for intracranial pressure monitoring: compliance and effect on outcome[J].World J Surg,2017,41(6):1543-1549.
[26] Meng L,Gelb AW.Regulation of cerebral autoregulation by Carbon dioxide[J].Anesthesiology,2015,122(1):196-205.
[27] 曾高,焦风,梁冶矢.颅内压的无创与智能化监测[J].山东医药,2010,50(24):38.
[28] Mizutani T,Manaka S,Tsutsumi H.Estimation of intracranial pressure using computed tomography scan findings in patients with severe head injury[J].Surg Neurol,1990,33(3):178-184.
[29] Swanson JW,Aleman TS,Xu W,et al.Evaluation of optical coherence tomography to detect elevated intracranial pressure in children[J].JAMA Ophthalmol,2017,135(4):320-328.
[30] Ragauskas A,Matijosaitis V,Zakelis R,et al.Clinical assessment of noninvasive intracranial pressure absolute value measurement method[J].Neurology,2012,78(21):1684-1691.
[31] Mcmahon CJ,Mcdermott P,Horsfall D,et al.The reproducibility of transcranial Doppler middle cerebral artery velocity measurements: implications for clinical practice[J].Br J Neurosurg,2007,21(1):21-27.
[32] Tayal VS,Neulander M,Norton HJ,et al.Emergency department sonographic measurement of optic nerve sheath diameter to detect findings of increased intracranial pressure in adult head injury patients[J].Ann Emerg Med,2007,49(4):508-514.
[33] Liu M,Yang ZK,Yf Y,et al.Optic nerve sheath measurements by computed tomography to predict intracranial pressure and guide surgery in patients with traumatic brain injury[J].World Neurosurg.2020,134:e317-e324.
[34] Antes S,Stadie A,Müller S,et al.Intracranial Pressure-Guided shunt valve adjustments with the miethke sensor reservoir[J].World Neurosurg,2018,109:e642-e650.
[35] 么宪伟,陆兵勋,李艳丽,等.闪光视觉诱发电位无创监测颅内压的可行性及临床应用[J].中华神经科杂志,2004,37(6):81-83.
[36] 赵乾,霍孜克,张翔,等.无创闪光视觉诱发电位颅内压监测的临床应用研究[J].卫生职业教育,2017,35(15):152-154.