切换至 "中华医学电子期刊资源库"
高级检索
中华肾病研究电子杂志

中华肾病研究电子杂志 ›› 2021, Vol. 10 ›› Issue (01) : 40 -43. doi: 10.3877/cma.j.issn.2095-3216.2021.01.008

所属专题: 文献

综述

急性肾损伤后脑损伤的研究进展
宫铭1, 陈香美1,()   
  1. 1. 100853 北京,解放军总医院第一医学中心肾脏病科、解放军肾脏病研究所、肾脏疾病国家重点实验室、国家慢性肾病临床医学研究中心、肾脏疾病研究北京市重点实验室
  • 收稿日期:2020-04-02 出版日期:2021-02-28
  • 通信作者: 陈香美
  • 基金资助:
    "十三五"军队后勤科研项目(BLB19J009)

Research progress of brain injury after acute kidney injury

Ming Gong1, Xiangmei Chen1,()   

  1. 1. Department of Nephrology, First Medical Center of Chinese PLA General Hospital, Chinese PLA Institute of Nephrology, State Key Laboratory of Kidney Diseases, National Clinical Research Center for Kidney Diseases, Beijing Key Laboratory of Kidney Diseases, Beijing 100853, China
  • Received:2020-04-02 Published:2021-02-28
  • Corresponding author: Xiangmei Chen
全文 ( ) 下载PDF ( ) 导出引用
引用本文:

宫铭, 陈香美. 急性肾损伤后脑损伤的研究进展[J]. 中华肾病研究电子杂志, 2021, 10(01): 40-43.

Ming Gong, Xiangmei Chen. Research progress of brain injury after acute kidney injury[J]. Chinese Journal of Kidney Disease Investigation(Electronic Edition), 2021, 10(01): 40-43.

越来越多的证据表明急性肾损伤(Acute Kidney Injury, AKI)除了造成肾脏损伤外,也会使其它远隔器官受累,甚至于出现多器官功能障碍,这是导致AKI高死亡率的重要原因之一。其中,AKI导致的中枢神经系统损伤不容忽视,AKI危重患者的高死亡率和长住院时间都与神经系统并发症密切相关。因此,AKI造成的脑损伤是目前备受关注的研究热点,本文就AKI导致脑损伤的基础和临床研究进展作一综述。

关键词: 急性肾损伤, 脑损伤, 多器官功能障碍

More and more evidences show that acute kidney injury (AKI) not only causes kidney damage, but also affects other distant organs, and even triggers multiple organ dysfunction, which is an important reason for the high mortality of AKI. Among them, the central nervous system damage caused by AKI cannot be ignored. The high mortality and long hospital stay of critically ill patients with AKI are closely related to neurological complications. Therefore, the brain damage caused by AKI is a research hotspot at present. This article summarized the basic and clinical research progress of brain damage caused by AKI.

Key words: Acute kidney injury, Brain damage, Multiple organ dysfunction
图1 AKI致脑损伤主要病理生理学机制
[1]
Hoste EAJ, Kellum JA, Selby NM, et al. Global epidemiology and outcomes of acute kidney injury [J]. Nat Rev Nephrol, 2018, 14(10): 607-625.
[2]
蔡广研,陈香美. 战创伤及特殊作业环境相关急性肾损伤的防治[J]. 解放军医学杂志,2019, 44(7): 546-549.
[3]
Susantitaphong P, Cruz DN, Cerda J, et al. World incidence of AKI: a meta-analysis [J]. Clin J Am Soc Nephrol, 2013, 8(9): 1482-1493.
[4]
Tanaka S, Okusa MD. Crosstalk between the nervous system and the kidney [J]. Kidney Int, 2020, 97(3): 466-476.
[5]
Lee SA, Cozzi M, Bush EL, et al. Distant organ dysfunction in acute kidney injury: a review [J]. Am J Kidney Dis, 2018, 72(6): 846-856.
[6]
Shiao C, Wu P, Huang T, et al. Long-term remote organ consequences following acute kidney injury [J]. Crit Care, 2015, 19: 438.
[7]
冯哲,陈香美. 急性肾损伤导致远隔器官功能障碍的机制[J/CD]. 中华肾病研究电子杂志,2015, 4 (3): 155-159.
[8]
Lu R, Kiernan MC, Murray A, et al. Kidney-brain crosstalk in the acute and chronic setting [J]. Nat Rev Nephrol, 2015, 11(12): 707-719.
[9]
Kao C, Yang W, Fang J, et al. Remote organ failure in acute kidney injury [J]. J Formos Med Assoc, 2019, 118(5): 859-866.
[10]
Firouzjaei MA, Haghani M, Shid Moosavi SM. Renal ischemia/reperfusion induced learning and memory deficit in the rat: Insights into underlying molecular and cellular mechanisms [J]. Brain Res, 2019, 1719: 263-273.
[11]
Liu M, Liang Y, Chigurupati S, et al. Acute kidney injury leads to inflammation and functional changes in the brain [J]. J Am Soc Nephrol, 2008, 19(7): 1360-1370.
[12]
Chou A, Lee C, Chen C, et al. Hippocampal transcriptional dysregulation after renal ischemia and reperfusion [J]. Brain Res, 2014, 1582: 197-210.
[13]
Gupta A, Kumar D, Puri S, et al. Neuroimmune mechanisms in signaling of pain during acute kidney injury (AKI) [J]. Front Med (Lausanne), 2020, 7: 424.
[14]
Anderson S, Eldadah B, Halter JB, et al. Acute kidney injury in older adults [J]. J Am Soc Nephrol, 2011, 22(1): 28-38.
[15]
Kumar V. Toll-like receptors in the pathogenesis of neuroinflammation [J]. J Neuroimmunol, 2019, 332: 16-30.
[16]
Salama M, Farrag SM, Abulasrar SA, et al. Up-regulation of TLR-4 in the brain after ischemic kidney-induced encephalopathy in the rat [J]. CNS Neurol Disord Drug Targets, 2013, 12(5): 583-586.
[17]
达静静,查艳. 慢性肾脏病营养代谢中的脑-肾对话[J]. 中国实用内科杂志,2019, 39 (11): 937-940.
[18]
Sies H. Oxidative stress: a concept in redox biology and medicine [J]. Redox Biol, 2015, 4: 180-183.
[19]
Malek M. Brain consequences of acute kidney injury: focusing on the hippocampus [J]. Kidney Res Clin Pract, 2018, 37(4): 315-322.
[20]
Kovalcíková A, Gyurászová M, Vavrincová-Yaghi D, et al. Oxidative stress in the brain caused by acute kidney injury [J]. Metab Brain Dis, 2018, 33(3): 961-967.
[21]
Yu F, Liang H, Xin S. Renal ischemia reperfusion cause brain hippocampus oxidative damage and inhibition effect [J]. Afr J Tradit Complement Altern Med, 2016, 13(5): 61-66.
[22]
Sharifi F, Reisi P, Malek M. Angiotensin 1 receptor antagonist attenuates acute kidney injury-induced cognitive impairment and synaptic plasticity via modulating hippocampal oxidative stress [J]. Life Sci, 2019, 234: 116775.
[23]
Zhao L, Cao X, Li L, et al. Acute kidney injury sensitizes the brain vasculature to Ang II (angiotensin II) constriction via FGFBP1 (fibroblast growth factor binding protein 1) [J]. Hypertension, 2020, 76 (6): 1924-1934.
[24]
Cheng CF, Ku HC, Lin H. PGC-1alpha as a pivotal factor in lipid and metabolic regulation [J]. Int J Mol Sci, 2018, 19(11): 3447.
[25]
Yip HK, Chen KH, Dubey NK, et al. Cerebro- and renoprotective activities through platelet-derived biomaterials against cerebrorenal syndrome in rat model [J]. Biomaterials, 2019, 214: 119227.
[26]
Wu VC, Wu PC, Wu CH, et al. The impact of acute kidney injury on the long-term risk of stroke [J]. J Am Heart Assoc, 2014, 3(4): e000933.
[27]
Tsai H, Yen R, Lin C, et al. Increased risk of dementia in patients hospitalized with acute kidney injury: A nationwide population-based cohort study [J]. PLoS One, 2017, 12(2): e0171671.
[28]
Guerra C, Linde-Zwirble WT, Wunsch H. Risk factors for dementia after critical illness in elderly medicare beneficiaries [J]. Crit Care, 2012, 16(6): R233.
[29]
Conroy AL, Opoka RO, Bangirana P, et al. Acute kidney injury is associated with impaired cognition and chronic kidney disease in a prospective cohort of children with severe malaria [J]. BMC Med, 2019, 17(1): 98.
[1] 孔莹莹, 谢璐涛, 卢晓驰, 徐杰丰, 周光居, 张茂. 丁酸钠对猪心脏骤停复苏后心脑损伤的保护作用及机制研究[J]. 中华危重症医学杂志(电子版), 2023, 16(05): 355-362.
[2] 韩圣瑾, 周正武, 翁云龙, 黄鑫. 碳酸氢钠林格液联合连续性肾脏替代疗法对创伤合并急性肾损伤患者炎症水平及肾功能的影响[J]. 中华危重症医学杂志(电子版), 2023, 16(05): 376-381.
[3] 张秋彬, 张楠, 林清婷, 徐军, 朱华栋, 姜辉. 急性胰腺炎合并急性肾损伤患者的预后评估[J]. 中华危重症医学杂志(电子版), 2023, 16(05): 382-389.
[4] 李文琳, 羊玲, 邢凯慧, 陈彩华, 钟丽花, 张娅琴, 张薇. 脐动脉血血气分析联合振幅整合脑电图对新生儿窒息脑损伤的早期诊断价值分析[J]. 中华妇幼临床医学杂志(电子版), 2023, 19(05): 550-558.
[5] 钱晓英, 吴新, 徐婷婷. 颅脑损伤并发呼吸衰竭患者早期机械通气的效果分析[J]. 中华肺部疾病杂志(电子版), 2023, 16(04): 526-528.
[6] 吴庆华, 冒勇, 闫效坤. AECOPD并发AKI的危险因素分析[J]. 中华肺部疾病杂志(电子版), 2023, 16(04): 529-531.
[7] 李青霖, 宋仁杰, 周飞虎. 一种重型劳力性热射病相关急性肾损伤小鼠模型的建立与探讨[J]. 中华肾病研究电子杂志, 2023, 12(05): 265-270.
[8] 任加发, 邬步云, 邢昌赢, 毛慧娟. 2022年急性肾损伤领域基础与临床研究进展[J]. 中华肾病研究电子杂志, 2023, 12(05): 276-281.
[9] 李金璞, 饶向荣. 抗病毒药物和急性肾损伤[J]. 中华肾病研究电子杂志, 2023, 12(05): 287-290.
[10] 朱泽超, 杨新宇, 李侑埕, 潘鹏宇, 梁国标. 染料木黄酮通过SIRT1/p53信号通路对蛛网膜下腔出血后早期脑损伤的作用[J]. 中华神经创伤外科电子杂志, 2023, 09(05): 261-269.
[11] 李飞翔, 段虎斌, 李晋虎, 吴昊, 王永红, 范益民. 急性颅脑损伤继发下肢静脉血栓的相关危险因素分析及预测模型构建[J]. 中华神经创伤外科电子杂志, 2023, 09(05): 277-282.
[12] 潘立, 谢理政, 程宏伟, 茆翔. 创伤性颅脑损伤后垂体功能减退[J]. 中华神经创伤外科电子杂志, 2023, 09(05): 308-312.
[13] 运陌, 李茂芳, 王浩, 刘东远. 微创穿刺引流联合吡拉西坦、乌拉地尔治疗基底节区高血压性脑出血的临床研究[J]. 中华脑科疾病与康复杂志(电子版), 2023, 13(05): 278-285.
[14] 陆猛桂, 黄斌, 李秋林, 何媛梅. 蜂蛰伤患者发生多器官功能障碍综合征的危险因素分析[J]. 中华临床医师杂志(电子版), 2023, 17(9): 1010-1015.
[15] 易成, 韦伟, 赵宇亮. 急性肾脏病的概念沿革[J]. 中华临床医师杂志(电子版), 2023, 17(08): 906-910.
阅读次数
全文


摘要

版权所有 中华医学会 中华医学电子音像出版社有限责任公司  京ICP备14006079号-1  网络出版服务许可证:(署)网出证(京)字第075号