首頁 雜志概況 投稿須知 在線投稿 在線閱讀 征訂啟事 廣告服務 行業資訊 企業動態 資料中心  專訪報道 會展信息 ENGLISH

引用本文:   趙麗君, 鄭衛, 毛蘭群. 離子選擇性電極在腦神經化學活體分析中的研究進展. 分析化學, 2019, 47(10): 1480-1491. doi:  10.19756/j.issn.0253-3820.191474 [復制]

Citation:   ZHAO Li-Jun , ZHENG Wei , MAO Lan-Qun . Recent Advances of Ion-Selective Electrode for in Vivo Analysis in Brain Neurochemistry. Chinese Journal of Analytical Chemistry, 2019, 47(10): 1480-1491. doi: 10.19756/j.issn.0253-3820.191474 [復制]

離子選擇性電極在腦神經化學活體分析中的研究進展

通訊作者:  鄭衛, [email protected]; 毛蘭群, [email protected]

收稿日期: 2019-08-03

基金項目: 本文系國家自然科學基金項目(No.21874139)資助

Recent Advances of Ion-Selective Electrode for in Vivo Analysis in Brain Neurochemistry

Corresponding author:  ZHENG Wei , [email protected]; MAO Lan-Qun , [email protected]

Received Date:  2019-08-03

Fund Project:  This work was supported by the National Natural Science Foundation of China (No. 21874139).

腦功能的實現需要多種離子的共同參與,因此,在活體層次實時監測腦內離子的動態變化,對于理解許多生理病理事件具有重要意義。離子選擇性電極作為一類電化學傳感器,具有成本低、操作簡單、能耗低等特點,被廣泛應用于活體分析等領域。本文以離子選擇性電極的發展歷程為主線,主要對其基本構造及其在腦神經化學活體分析領域的應用進行了評述。

關鍵詞:   離子選擇性電極, 活體分析, 腦神經化學, 評述
Key words:   Ion-selective electrode, In vivo analysis, Brain neurochemistry, Review
[1]

Li S, Zhang M, Wang J, Yang F, Kang B, Xu J, Chen H. Anal. Chem., 2019, 91(13):8398-8405

[2]

Chesler M. Physiol. Rev., 2003, 83(4):1183-1221

[3]

Zhao L, Jiang Y, Hao J, Wei H, Mao L. Sci. China Chem., doi:10.1007/s11426-019-9516-5

[4]

Zhao L, Jiang Y, Wei H, Jiang Y, Ma W, Zheng W, Cao A, Mao L. Anal. Chem., 2019, 91(7):4421-4428

[5]

Pan X, Liu J, Nguyen T, Liu C, Sun J, Teng Y, Fergusson M M, Rovira I I, Allen M, Springer D A, Aponte A M, Gucek M, Balaban R S, Murphy E, Finkel T. Nat. Cell Biol., 2013, 15(12):1464-1472

[6]

Bading H. Nat. Rev. Neurosci., 2013, 14(9):593-608

[7]

Nelson M T, French R J, Krueger B K. Nature, 1984, 308(5954):77-80

[8]

Mattson M P. Aging Cell, 2007, 6(3):337-350

[9]

Assaf S Y, Chung S H. Nature, 1984, 308(5961):734-736

[10]

Jentsch T J, Hubner C A, Fuhrmann J C. Nat. Cell Biol., 2004, 6(11):1039-1047

[11]

Yu J, Chang R C, Tan L. Prog. Neurobiol., 2009, 89(3):240-255

[12]

Vitvitsky V M, Garg S K, Keep R F, Albin R L, Banerjee R. Biochim. Biophys. Acta, 2012, 1822(11):1671-1681

[13]

Khanna A, Kahle K T, Walcott B P, Gerzanich V, Simard J M. Transl. Stroke Res., 2014, 5(1):3-16

[14]

Mani G K, Miyakoda K, Saito A, Yasoda Y, Kajiwara K, Kimura M, Tsuchiya K. ACS Appl. Mater. Interfaces, 2017, 9(26):21651-21659

[15]

Bradbury M W, Kleeman C R, Bagdoyan H, Berberian A. J. Lab. Clin. Med., 1968, 71(5):884-892

[16]

Rossol M, Pierer M, Raulien N, Quandt D, Meusch U, Rothe K, Schubert K, Schoneberg T, Schaefer M, Krugel U, Smajilovic S, Brauner-Osborne H, Baerwald C, Wagner U. Nat. Commun., 2012, 3(1):1-9

[17]

Petit-Pierre G, Colin P, Laurer E, Deglon J, Bertsch A, Thomas A, Schneider B L, Renaud P. Nat. Commun., 2017, 8(1):1-8

[18]

Lautenschlager J, Stephens A D, Fusco G, Strohl F, Curry N, Zacharopoulou M, Michel C H, Laine R, Nespovitaya N, Fantham M, Pinotsi D, Zago W, Fraser P, Tandon A, St George-Hyslop P, Rees E, Phillips J J, De Simone A, Kaminski C F, Schierle G S K. Nat. Commun., 2018, 9(1):1-13

[19]

Raza M, Blair R E, Sombati S, Carter D S, Deshpande L S, DeLorenzo R J. Proc. Natl. Acad. Sci. USA, 2004, 101(50):17522-17527

[20]

Xiao T, Wu F, Hao J, Zhang M, Yu P, Mao L. Anal. Chem., 2017, 89(1):300-313

[21]

Hao J, Xiao T, Wu F, Yu P, Mao L. Anal. Chem., 2016, 88(22):11238-11243

[22]

Hu J, Stein A, Buhlmann P. TrAC-Trend. Anal. Chem., 2016, 76:102-114

[23]

Hinke J A. Nature, 1959, 184(4694):1257-1258

[24]

Khuri R N, Agulian S K, Hajjar J J. J. Appl. Physiol., 1972, 32(3):419-422

[25]

Zeuthen T. How to Make and Use Double-barreled Ion-selective Microelectrodes, Salt Lake:Academic Press, 1980, 13:31-47

[26]

Tanaka K, Amano N, Satoda T, Murata T, Kawagishi S, Yoshino K, Mizuno N. Neuroscience, 2008, 155(3):969-982

[27]

Benninger C, Kadis J, Prince D A. Brain Res., 1980, 187(1):165-182

[28]

Yaari Y, Konnerth A, Heinemann U. Exp. Brain Res., 1983, 51(1):153-156

[29]

Hablitz J J, Heinemann U. Dev. Brain Res., 1987, 36(2):299-303

[30]

Sick T J, Solow E L, Roberts E L. Brain Res., 1987, 418(2):227-234

[31]

Mcbain C J, Traynelis S F, Dingledine R. Science, 1990, 249(4969):674-677

[32]

Leschinger A, Stabel J, Igelmund P, Heinemann U. Exp. Brain Res., 1993, 96(2):230-240

[33]

Holthoff K, Witte O W. Glia, 2000, 29(3):288-292

[34]

Heuser D, Astrup J, Lassen N A, Betz E. Acta Physiol. Scandi., 1975, 93(3):385-390

[35]

Severinghaus J W, Cotev S. Scand. J. Clin. Lab. Invest., 1968, 21(102):1-3

[36]

Astrup J, Norberg K. Brain Res., 1976, 103(2):418-423

[37]

Harris R J, Wieloch T, Symon L, Siesjo B K. J. Cereb. Blood Flow Metab., 1984, 4(2):187-193

[38]

Heinemann U, Lux H D, Gutnick M J. Exp. Brain Res., 1977, 27(3-4):237-243

[39]

Siesjo B K, Vonhanwehr R, Nergelius G, Nevander G, Ingvar M. J. Cereb. Blood Flow Metab., 1985, 5(1):47-57

[40]

Dreier J P. Nat. Med., 2011, 17(4):439-447

[41]

Charles A C, Baca S M. Nat. Rev. Neurol., 2013, 9(11):637-644

[42]

Pietrobon D, Moskowitz M A. Nat. Rev. Neurosci., 2014, 15(6):379-393

[43]

Nicholson C, Tenbruggencate G, Steinberg R, Stockle H. Proc. Natl. Acad. Sci. USA, 1977, 74(3):1287-1290

[44]

Kraig R P, Nicholson C. Neuroscience, 1978, 3(11):1045-1059

[45]

Hansen A J, Zeuthen T. Acta Physiol. Scand., 1981, 113(4):437-445

[46]

Nicholson C, Tenbruggencate G, Stockle H, Steinberg R. J. Neurophysiol., 1978, 41(4):1026-1039

[47]

Hansen A J, Olsen C E. Acta Physiol. Scand., 1980, 108(4):355-36550

[48]

Krnjevic K, Morris M E, Reiffenstein R J. Can. J. Physiol. Pharmacol., 1980, 58(5):579-583

[49]

Ekholm A, Katsura K, Kristian T, Liu M, Folbergrova J, Siesjo B K. Brain Res., 1993, 604(1-2):185-191

[50]

Mutch W A C, Hansen A J. J. Cereb. Blood Flow Metab., 1984, 4(1):17-27

[51]

Moghaddam B, Schenk J O, Stewart W B, Hansen A J. Can. J. Physiol. Pharmacol., 1987, 65(5):1105-1110

[52]

Silver I A, Erecinska M. J. Gen. Physiol., 1990, 95(5):837-866

[53]

Nedergaard M, Kraig R P, Tanabe J, Pulsinelli W A. Am. J. Physiol., 1991, 260(3):R581-R588

[54]

Zhang E T, Hansen A J, Wieloch T, Lauritzen M. J. Cereb. Blood Flow Metab., 1990, 10(1):136-139

[55]

Young W, Flamm E S. J. Neurosurg., 1982, 57(5):667-673

[56]

Heinemann U, Pumain R. Exp. Brain Res., 1980, 40(3):247-250

[57]

Pumain R, Kurcewicz I, Louvel J. Can. J. Physiol. Pharmacol., 1987, 65(5):1067-1077

[58]

Lindner E, Gyurcsanyi R E. J. Solid State Electrochem., 2009, 13(1):51-68

[59]

Nicholson C, Rice M E. Neuronal microenvironment, Edited by Boulton A A, Baker G B, Walz W, New Jersey:Humana Press, 1988:247-361

[60]

Hirata H, Date K. Talanta, 1970, 17(9):883-887

[61]

Cattrall R W, Freiser H. Anal. Chem., 1971, 43(13):1905-1906

[62]

Ivanova N M, Levin M B, Mikhelson K N. Russ. Chem. Bull., 2012, 61(5):926-936

[63]

Nikolskii B P, Materova E A. Ion-Selective Electrode Rev., 1985, 7(1):3-39

[64]

Bobacka J. Electroanalysis, 2006, 18(1):7-18

[65]

Bobacka J, Ivaska A, Lewenstam A. Chem. Rev., 2008, 108(2):329-351

[66]

Bakker E. Anal. Chem., 2016, 88(1):395-413

[67]

Bieg C, Fuchsberger K, Stelzle M. Anal. Bioanal. Chem., 2017, 409(1):45-61

[68]

Zdrachek E, Bakker E. Anal. Chem., 2019, 91(1):2-26

[69]

Crespo G A, Macho S, Bobacka J, Rius F X. Anal. Chem., 2009, 81(2):676-681

[70]

Cuartero M, Bishop J, Walker R, Acres R G, Bakker E, De Marco R, Crespo G A. Chem. Commun., 2016, 52(62):9703-9706

[71]

Bobacka J. Anal. Chem., 1999, 71(21):4932-4937

[72]

Odijk M, van der Wouden E J, Olthuis W, Ferrari M D, Tolner E A, van den Maagdenberg A, van den Berg A. Sens. Actuators B, 2015, 207:945-953

[73]

Filippidis A S, Liang X, Wang W, Parveen S, Baumgarten C M, Marmarou C R. J. Neurotrauma, 2014, 31(14):1258-1267

[74]

Haj-Yasein N N, Bugge C E, Jensen V, Ostby I, Ottersen O P, Hvalby O, Nagelhus E A. Brain Struct. Funct., 2015, 220(4):2469-2474

[75]

Yao X, Smith A J, Jin B, Zador Z, Manley G T, Verkman A S. Glia, 2015, 63(10):1860-1869

[76]

Odackal J, Sherpa A D, Patel N, Colbourn R, Hrabetova S. Exp. Neurol., 2015, 273:105-113

[77]

Haack N, Durry S, Kafitz K W, Chesler M, Rose C R. J. Vis. Exp., 2015, 103:1-15

[78]

Moon J, Ha Y, Kim M, Sim J, Lee Y, Suh M. Anal. Chem., 2016, 88(18):8942-8948

[79]

Octeau J C, Faas G, Mody I, Khakh B S. J. Vis. Exp., 2018, 135:1-8

[80]

Zhao H, Du H, Cai Y, Liu C, Xie Z, Chen K. J. Neurophysiol., 2019, 121(5):1735-1747

[81]

Guinovart T, Hernandez-Alonso D, Adriaenssens L, Blondeau P, Rius F X, Ballester P, Andrade F J. Biosens. Bioelectron., 2017, 87:587-592

[82]

He N, Papp S, Lindfors T, Hofler L, Latonen R M, Gyurcsanyi R E. Anal. Chem., 2017, 89(4):2598-2605

[83]

Wang S, Wu Y, Gu Y, Li T, Luo H, Li L, Bai Y, Li L, Liu L, Cao Y, Ding H, Zhang T. Anal. Chem., 2017, 89(19):10224-10231

[84]

Boeva Z A, Lindfors T. Sens. Actuators B, 2016, 224:624-631

[85]

Ishige Y, Klink S, Schuhmann W. Angew. Chem. Int. Ed., 2016, 55(15):4831-4835

[86]

Szucs J, Lindfors T, Bobacka J, Gyurcsanyi R E. Electroanalysis, 2016, 28(4):778-786

[87]

Vanamo U, Hupa E, Yrjana V, Bobacka J. Anal. Chem., 2016, 88(8):4369-4374

[88]

Jarolimova Z, Han T T, Mattinen U, Bobacka J, Bakker E. Anal. Chem., 2018, 90(14):8700-8707

[89]

Eylem C C, Tastekin M, Kenar A. Talanta, 2018, 183:184-191

[90]

Zdrachek E, Bakker E. Anal. Chem., 2018, 90(12):7591-7599

計量
  • PDF下載量(48)
  • 文章訪問量(264)
  • HTML全文瀏覽量(7)

目錄

離子選擇性電極在腦神經化學活體分析中的研究進展

趙麗君, 鄭衛, 毛蘭群

Figures and Tables

3d全部独胆三地村胆码