물 환경 내 항생제 약물 분석을 위한 바이오센서 개발 연구 동향

고은서; 이혜진; Eunseo Goh; Hye Jin Lee

Applied Chemistry for Engineering, Vol.27, No.6, 565-572, December, 2016

DOI10.14478/ace.2016.1107 Export Citation

물 환경 내 항생제 약물 분석을 위한 바이오센서 개발 연구 동향

Development Trend of Biosensors for Antimicrobial Drugs in Water Environment

고은서, 이혜진^†

경북대학교 자연과학대학 화학과 및 청정나노소재 연구소

Eunseo Goh, and Hye Jin Lee^†

Department of Chemistry and Green-Nano materials Research Center, Kyungpook National University, 80 Daehakro, Buk-gu, Daegu-city 41566, Republic of Korea

E-mail:

초록

최근 국내 수질오염에 대한 높은 관심과 개선의 필요성이 요구되는 가운데 물 환경 속의 약물의 잔류는 인체를 포함한 생태계의 약물 내성을 일으킨다는 점에서 지속적인 모니터링의 필요성이 제기되고 있다. 특히 약물 중 큰 비율을 차지하는 항생제의 잔류는 하천을 통해 빠르게 생태계의 내성균 확산을 일으킬 수 있다는 점에서 매우 큰 위험요소라고 할 수 있다. 따라서 본 총설에서는 물 환경 속의 항생제 분석이 실시간으로 가능한 신속한 센싱 플랫폼 기반 기술을 서술하고자 하며 이와 관련한 국내/외 연구현황과 발전가능성 및 그에 따른 산업/경제적 효과에 대해 논의하고자 한다.

While there have been great demands on improving domestic water pollution issues, the necessity for real time monitoring of particular drug residues in water resources has been raised since drug residues including antibiotics could provoke new trains of drug-resistant bacteria in water environments. Among many different types of drugs used for pharmaceutical treatment, antibiotics are considered to be one of the most hazardous to our ecosystem since they can rapidly promote the spreading of drug-resistant bacteria in water environments. In this mini-review, we will highlight recent developments made on creating in-situ sensing platforms for the fast monitoring of antibiotic residues in aquatic environmental samples focusing on optical and electrochemical techniques. Related recent technology developments and the resulting economy effects will also be discussed.

Keywords:antibiotics;water pollutant;optical biosensor;electrochemical biosensor;antimicrobials

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Zhang J, Zhang B, Wu Y, Jia S, Fan T, Zhang Z, Zhang C, Analyst, 135, 2706 (2010)
Chen B, Ma M, Su X, Anal. Chim. Acta, 674, 89 (2010)
Jacobs M, Nagaraj VJ, Mertz T, Selvam AP, Ngo T, Prasad S, Anal. Methods, 5, 4325 (2013)

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[2] Doern GV, Heilmann KP, Huynh HK, Rhomberg PR, Coffman SL, Brueggemann AB, Antimicrob. Agents Chemother., 45, 1721 (2001)

[3] Shoemaker NB, Vlamakis H, Hayes K, Salyers AA, Appl. Environ. Microbiol., 67, 561 (2001)

[4] Klevens RM, Edwards FC, Tenover, McDonald LC, Horan T, Gaynes R, Clin. Infect. Dis., 42, 389 (2006)

[5] Falagas ME, Bliziotis IA, Int. J. Antimicrob. Agents, 29, 630 (2007)

[6] Rodriguez-Mazaz S, Weinberg HS, Environ. Health Perspect., 118, 1016 (2010)

[7] Zhao L, Dong YH, Wang H, Sci. Total Environ., 408, 1069 (2010)

[8] Baquero F, Martinez JL, Canton R, Curr. Opin. Biotechnol., 19, 260 (2008)

[9] Alanis AJ, Arch. Med. Res., 36, 697 (2005)

[10] Levy SB, The Antibiotic Paradox; How the Misuse of Antibiotics Destroys Their Curative Powers, 2nd ed., 1-14, Perseus Publishing, Cambridge, MA, USA (2002).

[11] Seifrtova M, Novakova L, Lino C, Pena A, Solich P, Anal. Chim. Acta, 649, 158 (2009)

[12] van Wezel A, Mons M, van Delft W, J. Environ. Monit., 18, 80 (2010)

[13] Giger W, Anal. Bioanal. Chem., 393, 37 (2009)

[14] Gubala V, Harris LF, Ricco AJ, Tan MX, Williams DE, Anal. Chem., 84, 487 (2012)

[15] Bahadir EB, Sezginturk MK, Anal. Biochem., 478, 107 (2015)

[16] Mungroo NA, Neethirajan S, Biosensors, 4, 472 (2014)

[17] Kling J, Nat. Biotechnol., 24, 891 (2006)

[18] Burns MA, Science, 296, 1818 (2002)

[19] Rasooly A, Methods, 37, 1 (2005)

[20] Craighead H, Nature, 442, 387 (2006)

[21] Zhu H, Snyder M, Curr. Opin. Biotechnol., 7, 55 (2003)

[22] Song S, Wang L, Li J, Zhao J, Fan C, Trends Anal. Chem., 27, 108 (2008)

[23] Uttamchandani M, Wang J, Yao SQ, Mol. BioSys., 2, 58 (2006)

[24] Lee HJ, Kim S, Han HY, Kim E, Polym. Sci. Technol., 26(1), 9 (2015)

[25] Reder-Christ K, Bendas G, Sensors(Basel), 11, 9450 (2011)

[26] Yuan J, Oliver R, Aguilar MI, Wu Y, Anal. Chem., 80, 8329 (2008)

[27] Frasconi M, Tel-Vered R, Riskin M, Willner I, Anal. Chem., 82, 2512 (2010)

[28] Raz SR, Bremer MGEG, Haasnoot W, Norde W, Anal. Chem., 81, 7743 (2009)

[29] Adrian J, Pasche S, Diserens JM, Sanchez-Baeza F, Gao H, Marco MP, Voirin G, Biosens. Bioelectron., 24, 3340 (2009)

[30] Korposh S, Chianella I, Guerreiro A, Caygill S, Piletsky S, James SW, Tatam RP, Analyst, 139, 2229 (2014)

[31] Kling A, Chatelle C, Armbrecht L, Qelibari E, Kieninger J, Dincer C, Weber W, Urban G, Anal. Chem., 88, 10036 (2016)

[32] Rowe AA, Miller EA, Plaxco KW, Anal. Chem., 82, 7090 (2010)

[33] Giroud F, Gorgy K, Gondran C, Cosnier S, Pinacho DG, Marco MP, Sanchez-Baeza FJ, Anal. Chem., 81, 8405 (2009)

[34] Peljo P, Girault HH, Liquid/Liquid Interfaces, Electrochemistry at, Encyclopedia of Analytical Chemistry, 2nd ed., 1-28, John Wiley & Sons, NY, USA (2012).

[35] Kim HR, Baek SH, Lee HJ, Appl. Chem. Eng., 24(5), 443 (2013)

[36] Velicky M, Rodgers ANJ, Dryfe RAW, Tam K, ADMET DMPK, 2, 143 (2014)

[37] Vladimirova EV, Dunaeva AA, Petrukhin OM, Shipulo EV, J. Anal. Chem., 68, 253 (2013)

[38] Kim HR, Pereira CM, Han HY, Lee HJ, Anal. Chem., 87, 5356 (2015)

[39] Han H, Investigation on Antibiotic Transfer Processes across an Interface between Two Immiscible Electrolyte Solutions, MS Thesis, Kyungpook National University, Daegu, Korea (2016).

[40] Halling-Sorensen B, Nielsen SN, Lanzky PF, Ingerslev F, Lutzhoft HCH, Jorgensen SE, Chemosphere, 36, 357 (1998)

[41] Santos LHMLM, Araujo AN, Fachini A, Pena A, Delerue-Matos C, Montenegro MCBSM, J. Hazard. Mater., 175(1-3), 45 (2010)

[42] Kim Y, Jung J, Kim M, Park J, Boxall ABA, Choi K, Environ. Toxicol. Pharmacol., 26, 167 (2008)

[43] Chen X, Kim D, Hong S, Nanomedicine, 9, 565 (2014)

[44] Yuan J, Addo J, Aguilar MI, Wu Y, Anal. Biochem., 390, 97 (2009)

[45] de-los-Santos-Alvarez N, Lobo-Castanon MJ, Miranda-Ordieres AJ, Tunon-Blanco P, Biosens. Bioelectron., 24, 2547 (2009)

[46] Fernandez F, Hegnerova K, Piliarik M, Sanchez-Baeza F, Homola J, Marco MP, Biosens. Bioelectron., 26, 1231 (2010)

[47] Zengin A, Tamer U, Caykara T, Anal. Chim. Acta, 817, 33 (2014)

[48] Zdunek J, Benito-Pena E, Linares A, Falcimaigne-Cordin A, Orellana G, Haupt K, Moreno-Bondi MC, Chemistry, 19, 10209 (2013)

[49] Healey BG, Walt DR, Anal. Chem., 67, 4471 (1995)

[50] Pawar MK, Tayade KC, Sahoo SK, Mahulikar PP, Kuwar AS, Chaudhari BL, Biosens. Bioelectron., 81, 274 (2016)

[51] Chan PH, Liu HB, Chen YW, Chan KC, Tsang CW, Leung YC, Wong KY, J. Am. Chem. Soc., 126(13), 4074 (2004)

[52] Chan PH, So PK, Ma DL, Zhao Y, Lai TS, Chung WH, Chan KC, Yiu KF, Chan HW, Siu FM, Tsang CW, Leung YC, Wong KY, J. Am. Chem. Soc., 130(20), 6351 (2008)

[53] Liu YM, Jia YX, Tian W, J. Sep. Sci., 31, 3765 (2008)

[54] Kurittu J, Lonnberg S, Virta M, Karp M, J. Agric. Food Chem., 48, 3372 (2000)

[55] Dzomba P, Kugara J, Zaranyika MF, Afr. J. Pharm. Pharmacol., 9, 523 (2015)

[56] Ahn KC, Ranganathan A, Bever CS, Hwang SH, Holland EB, Morisseau K, Pessah IN, Hammock BD, Gee SJ, Environ. Sci. Technol., 50, 3754 (2016)

[57] Zhou C, Zhang X, Huang X, Guo X, Cai Q, Zhu S, Sensors (Basel), 14, 21872 (2014)

[58] Saber AL, Elmosallamy MA, Killa HM, Ghoneim MM, J. Taibah Univ. Sci., 7, 195 (2013)

[59] Kim YS, Niazi JH, Gu MB, Anal. Chim. Acta, 634, 250 (2009)

[60] Zhang J, Zhang B, Wu Y, Jia S, Fan T, Zhang Z, Zhang C, Analyst, 135, 2706 (2010)

[61] Chen B, Ma M, Su X, Anal. Chim. Acta, 674, 89 (2010)

[62] Jacobs M, Nagaraj VJ, Mertz T, Selvam AP, Ngo T, Prasad S, Anal. Methods, 5, 4325 (2013)