静脉输注利多卡因对围术期神经认知障碍的影响
Journal: Basic Medical Theory Research DOI: 10.12238/bmtr.v3i1.3952
Abstract
随着外科手术和麻醉技术快速发展,术后加速康复外科(enhanced recovery after surgery,ERAS)理念不断推进,围术期神经认知障碍(perioperative neurocognitive disorders,PND)日益受到麻醉医生及临床医生的关注。随着对预防PND的合理预防措施的逐步探索,大量资料证实其利多卡因对PND具有保护作用。因此,文章从利多卡因对PND的保护作用进行综述,以助于一定提供依据。
Keywords
利多卡因;围术期神经认知障碍;利多卡因减轻线粒体损伤
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[2] Inouye SK, Westendorp RG.Delirium in elderly people.[J].Lancet.2014,383(9920):911-922.
[3] Aldecoa C,Bettelli G,Bilotta F. European Society of Anaesthesi- ology evidence-based and consensus based guideline on postopera- tive delirium. [J].Eur J Anaesthesiol,2017,34:192-214.
[4] Rasmussen LS.Postoperative cog nitive dysfunction:incidence and prev ention.Best Pract Res Clin Anaesthesiol, 2006,20(2):315-330.
[5] Hogue CW, Grafman J.Aligning nomenclature for cognitive changes ass ociated with anaesthesia and surgery with broader diagnostic classifications of non-surgical populations:a needed first step.Br J Anaesth, 2018, 121(5): 991-993.
[6] Koster S,Hensens AG.The longterm cognitiveand functional outcomes of postoperative delirium after cardiac surgery.[J].Ann Thorac Surg.2009,87(5): 1469-1474.
[7] Vlisides P,Xie Z.Neurotoxicity of general anesthetics:an update[J]. Curr Pharm Des,2012,18(38):6232-6240.
[8] J evtovic-Todorovic, V; General Anesthetics and Neurotoxicity: How Much Do We Know?[J].Anesthesiol Clin.: 439-51.
[9] Andjelkovi L, Novak-Jankovi V. Influence of dexmedetomidine and lido caine on perioperative opioid consump tion in laparoscopic intestine resection: a randomized controlled clinical trial. [J].J Int Med Res.2018,46(12):5143- 5154.
[10] Dongxin Wang. The Effect of Lidocaine on Early Postoperative Cogn itive Dysfunction After Coronary Artery Bypass Surgery. Anesthesia & Analgesia, 2002, 95(5):1134-1141.
[11] 王萍.静注利多卡因对老年胸腔镜肺叶切除患者术后谵妄的影响[J]. 实用医学杂志,2015,31(16):2740-2742.
[12] O'Toole JF, Patel HV, Naples CJ, et al.Decreased cytochrome c mediates an age-related decline of oxidative phosphorylation in rat kidney mitocho ndria.[J].Biochem J.:105-12.
[13] Golpich M, Amini E, Hemmati F, et al.Glycogen synthase kinase-3 beta (GSK-3β) signaling: Implications for Parkinson's disease.[J].Pharmacol Res.2015,97():16-26.
[14] Sanchez V,Feinstein SD.General Anesthesia Causes Long-term Impairme nt of Mitochondrial Morphogenesis and Synaptic Transmission in Developing RatBrain.[J].Anesthesiology.2011,115(5):992-1002.
[15] Lu Y,Chen L,Ye J, et al.Surgery/ Anesthesia disturbs mitochondrial fiss ion/fusion dynamics in the brain of aged mice with postoperative delirium. [J].Aging (Albany NY).2020,12(1):844-865.
[16] Flippo KH, Strack S. Mitochon drial dynamics in neuronal injury, deve lopment and plasticity.[J].J Cell Sci. 2017,130(4):671-681.
[17] Zhang J,Gao J,Guo G,et al.Anest hesia and surgery induce deliriumlike behavior insusceptible mice: the role of oxidative stress.[J].Am J Transl Res.2018,10(8):2435-2444.
[18] Lin D, Cao L, Wang Z, Li J, Washington JM, Zuo Z (2012) Lidocaine attenuates cognitive impairment after isofurane anesthesia in old rats. Behav Brain Res 228:319–327.
[19] Li J,Zhu X,Yang S,et al.Lidoca ineAttenuates Cognitive Impairment After Isoflurane Anesthesia by Reducing Mitochondrial Damage.[J].Neurochem Res. 2019,44(7):1703-1714.
[20] 叶治,郭曲练.利多卡因的脑保护机制[J].国际病理科学与临床杂志,2007,(05):448-452.
[21] Streit WJ. Microglia as neurop rotective, immunocompetent cells of theCNS.[J].Glia.2002,40(2):133-139.
[22] Kaur G..Microglia and central nervous system immunity.[J].Neurosurg Clin N Am.2010,21(1):43-51.
[23] Terrando N, Eriksson LI, Kyu Ryu J et al: Resolving postoperativeneuroinflammation and cognitive decli ne. Ann Neurol, 2011;70: 986-995.
[24] Dilger RN, Johnson RW. Aging, microglial cell priming, and the disco rdant central inflammatory response to signals from the peripheral immune system.[J].J Leukoc Biol.2008,84(4):932-939.
[25] Subramaniyan S,Terrando,N.Ne uroinflammation and perioperative neu rocognitive disorders[J].Anesthesia & Analgesia,2019,128(4):781-788.
[26] Chapman TR, Barrientos RM, Ahr endsen JT, Maier SF, Patterson SL: Syn aptic ased cognitive vulnerability with aging: peripheral immune challenge and aging interact to disrupt thetaburst late-phase long-term potentiat ion in hippocampal area CA1. J Neuros ci 2010,30:7598-7603.
[27] Cortese GP, Barrientos RM, Mai er SF, Patterson SL: Aging and a peri pheral immune challenge interact to reduce mature brain-derived neurotro phic factor and activation of TrkB, PLCgamma1, and ERK in hippocampal synaptoneurosomes. J Neurosci 2011, 31:4274-4279.
[28] Glass CK, Saijo K, Winner B, et al.Mechanisms underlying inflammation inneurodegeneration.[J].Cell.2010,140 (6):918-934.
[29] Tan H, Cao J, Zhang J, et al. Critical role of inflammatory cytoki nes in impairing biochemical processes for learning and memory after surgery in rats.[J].J Neuroinflammation.2014, 11(11):93.
[30] Yuan T, Li Z, Li X, et al.Lidoca ine attenuates lipopolysaccharide-ind uced inflammatory responses in micro glia.[J].J Surg Res.2014,192(1):150-162.
[31] Chen K, Wei P, Zheng Q, et al. Neuroprotective effects of intravenous lidocaine on early postoperative cog nitive dysfunction in elderly patients following spine surgery.[J].Med Sci Monit.2015,(21):1402-1407.
[32] Sibarov DA,Antonov SM.Calcium -dependent desensitization of NMDA receptors[J].Biochemistry,2018,83(10):1173-1183.
[33] Khan MA, Houck DR, Gross AL, et al.NYX-2925 Is a Novel NMDA ReceptorSpecific Spirocyclic-β-Lactam That Modulates Synaptic Plasticity Process es Associated with Learning and Memory. [J].Int J Neuropsychopharmacol.2018, 21(3):242-254.
[34] Ndlazi Z,Abboussi O,Mabandla M,et al.Memantine increases NMDA rece ptor level in the prefrontal cortex but fails to reverse apomorphine-induced conditioned place preference in rats [J].AIMS Neurosci,2018,5(4):211-220.
[35] Lin TY, Chung CY, Lu CW, Huang SK, Shieh JS, Wang SJ. Local anesthetics inhibit glutamate release from rat cerebral cortex synaptosomes. Synapse 2013, 67:568-579.
[36] Chiu KM, Lu CW, Lee MY, et al. Neuroprotective and anti-inflammatory effects of lidocaine in kainicacidinjectedrats.[J].Neuroreport.2016,27(7):501-507.
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