Document Type : Review Article

Authors

1 Department of Biology, Ahvaz Branch, Chamran University, Ahvaz, Iran

2 Department of Biology, Faculty of Basic Sciences, University of Central Tehran, Tehran, Iran

3 Department of Biology, Ardabil Branch, Islamic Azad University, Ardabil, Iran

Abstract

The purpose of this research study was to assess the use of nanoparticles in combat pathogenic microorganisms and also to investigate the synergistic effect of nanoparticles with antibiotics in eliminating these factors. In this work, the influence of different nanoparticles on microorganisms was evaluated in 89 studies. It was found that nanoparticles can be used against microorganisms, either independently or by their synergistic effect with antibiotics. The study found that metal nanoparticles have a more anti-microbial effect, among metal nanoparticles, silver nanoparticles exert the most specific among all microorganisms. Meanwhile, metal nanoparticles can be a good alternative to the use of antibiotics and inhibitors of pathogens.

Graphical Abstract

A review of applications and mechanisms nanoparticles on inhibiting the growth of pathogens

Keywords

Main Subjects

[1]. Murthy S.k. Int J Nanomedicine., 2007, 2:129

[2]. Nikalje A.P. Nikalje, 2015, 5:2

[3]. Prestinaci F., Pezzotti P., Pantosti A. Pathog Glob Health., 2015, 109:309

[4]. Clark N.M., Patterson J., Lynch JP. Current Opinion in Critical Care, 2003, 9:23

[5]. Anuj S.A., Gajera H.P., Hirpara D.G., Golakiya B.A. Life Sci., 2019, 230:178

[6]. Shariati A., Asadian E., Fallah F. Infect Drug Resist., 2019, 12:2223

[7]. Irwin K.K., Renzette N., Kowalik T.F., Je Ansen J.D. Virus evolution, 2016, 2:014

[8]. Beyth N., Houri-Haddad Y., Domb A., Khan W., Hazan R. Evid Based Complement Alternat Med., 2015, 2015:1

[9]. Webster T.J., Seil I. International Journal of Nanomedicine, 2012, 7:2767

[10]. Seifi Mansour S., Ezzatzadeh E., Safarkar R. Asian Journal of Green Chemistry, 2019, 3:353

[11]. Feng Q.L., Wu J., Chen G.Q., Cui F.Z., Kim T.N., Kim J.O. J Biomed Mater Res., 2000, 52:662

[12]. Bankier C., Matharu R.K., Cheong Y.K. Sci Rep., 2019, 9:16074

[13]. Riau A.K., Aung T.T., Setiawan M., Yang L., Yam G., Beuerman R.W., Venkatraman S.S., Mehta J.S. Pathogens (Basel, Switzerland), 2019,8:93

[14]. Hsueh Y.H., Tsai P.H., Lin K.S. International Journal of Molecular Sciences, 2017, 18:793

[15]. Su Y., Zheng X., Chen Y., Li M., Liu K. Scientific Reports, 2015,5:15824

[16]. Taylor E.N., Webster T.J. International Journal of Nanomedicine, 2009,4:145

[17]. Safarkar R., Ebrahimzadeh Rajaei G., Khalili-Arjagi S. Asian Journal of Nanosciences and Materials, 2020, 3:157

[18]. Jesline A., John N.P., Narayanan P.M., Vani C., Murugan S. Applied Nanoscience, 2014, 5:157

[19]. Raghupathi K.R., Koodali R.T., Manna A.C. Langmuir, 2011, 27:4020

[20]. Gupta D., Singh A., Khan A.U. Nanoscale Research Letters, 2017,12:454

[21]. Chwalibog A., Sawosz E., Hotowy A. Int J Nanomedicine., 2010, 5:1085

[22]. Ramkumar V.S., Pugazhendhi A., Prakash S., Ahila N.K., Vinoj G., Selvam S., Kumar G., Kannapiran E., Rajendran R.B. Biomed Pharmacother., 2017, 92:479

[23]. Sawai J. J Microbiol Methods., 2003, 54:177

[24]. Sawai J., Kawada E., Kanou F., Igarashi H., Hashimoto A., Kokugan T., Shimizu M. Journal of Chemical Engineering of Apan, 1996, 29:627

[25]. Noori A.J., Kareem F.A. Heliyon, 2019, 5:02568

[26]. Imani S., Zagari Z., Rezaei-Zarchi S., Zand A M., Dorodiyan M., Bariabarghoyi H. J Fasa Univ Med Sci., 2011, 1:175

[27]. Chavan S., Sarangdhar V., Nadanathangam V. Emerging Contaminants, 2018, 8:617

[28]. Tran P.A., O'Brien-Simpson N., Palmer J.A. Int J Nanomedicine., 2019, 14:4613

[29]. Salehi B., Mortaz E., Tabarsi P. Adv Biomed Res., 2015, 4:105

[30]. Salehi B., Mehrabian S., Ahmadi M. J Nanobiotechnol., 2014, 12:26

[31]. Haghgoo R., Saderi H., Eskandari M., Haghshenas H., Rezvani M. J Dent (Shiraz)., 2014, 15:57

[32]. Sotiriou G.A., Teleki A., Camenzind A. Chem Eng J., 2011, 170:547

[33]. Hong W., Liu L., Zhang Z., Zhao Y., Zhang D., Liu M. International Journal of Nanomedicine, 2018, 13:6297

[34]. Haghshenas L., Amini A., Bhatti A.B., Rahimi Gh. Micro & Nano Biomedicine., 2017, 12:193

[35]. Dhaouadi H., Chaabane H., Touati F. Nano-Micro Lett., 2011,3:153

[36]. Ramola B., Joshi N.C., Ramola M., Chhabra J., Singh A. Orient J Chem., 2019, 35:1154

[37]. Tang Z.X., Yu Z., Zhang Z.L., Zhang X.Y., Pan Q.Q., Shi L.E. Nova., 2013, 36:0100

[38]. Salehi P., Babanouri N., Roein-Peikar M., Zare F. Prog Orthod., 2018, 19:35

[39]. Eshed M., Lellouche J., Matalon S., Gedanken A., Banin E. Langmuir, 2012, 28:12288

[40]. Delavari M., Dalimi A., Ghaffarifar F., Sadraei J. Iranian Journal of Parasitology, 2014,9:6

[41]. Anuj S.A., Gajera H.P., Hirpara D.G., Golakiya B.A. J Trace Elem Med Biol., 2019, 51:219

[42]. Lee N.Y., Ko W.C., Hsueh P.R. Front Pharmacol., 2019, 10:1153

[43]. Yilmaz Atay H. Functional Chitosan: Drug Delivery and Biomedical Applications, 2020, 6:457  

[44]. Hosseinnejad M., Jafari S.M. Int J Biol Macromol., 2016, 85:467

[45]. Wang L., Hu C., Shao L. International Journal of Nanomedicine, 2017, 12:1227

[46]. Agarwal H., Menon S., Venkat Kumar S., Rajeshkumar S. Chem Biol Interact., 2018, 286:60

[47]. Şahin E., Musevi S.J., Aslani A. Arabian Journal of Chemistry, 2017, 10:S230

[48]. Wang L., Hu C., Shao L. Int J Nanomedicine., 2017, 12:1227

[49]. Burygin G.L., Khlebtsov B.N., Shantrokha A.N., Dykman L.A., Bogatyrev V.A., Khlebtsov N.G. Nanoscale Res Lett., 2009, 4:794

[50]. Lee N.Y., Ko W.C., Hsueh P.R. Front Pharmacol, 2019, 10:1153 

[51]. Li Y., Yang D., Wang S., Li C., Xue B., Yang L., Shen Z., Jin M., Wang J., Qiu Z. Molecules (Basel, Switzerland), 2018, 23:606

[52]. Sunada K., Watanabe T., Hashimoto K. Journal of Photochemistry and Photobiology, 2003, 37:9

[53]. Alburquenque D., Escrig J., Galotto MJ., Patiño C., Pereira A. World Journal of Pharmacy and Pharmaceutical Sciences, 2019, 10:1716

[54]. Carrouel F., Viennot S., Ottolenghi L., Gaillard C., Bourgeois D. Nanomaterials (Basel), 2020, 10:140

[55]. Amina M., Al Musayeib N.M., Alarfaj N.A., ElTohamy M.F., Oraby H.F., Al Hamoud G.A. PLos One, 2020, 15:e0237567

[56]. Savale A., Ghotekar S., Pansambal S., Pardeshi O. J. Mater. Environ., 2012, 3:678

[57]. Hateet R.R., Hachim A.K., Lazim H.G. World Journal of Pharmacy and Pharmaceutical Sciences, 2016, 5:2167

[58]. Ansari M.A., Khan H.M., Khan A.A., Cameotra S.S., Saquib Q., Musarrat J. J Appl Microbiol., 2014, 116:772

[59]. Moniri Javadhesari S., Alipour S., Mohammadnejad S., Akbarpour M.R. Materials for Biological Applications, 2019, 105:110011

[60]. Mirhosseini M., Houshmand Marvasti S. Iran J Med Microbiol., 2017, 11:125

[61]. Haghi M., Hekmatafshar M., Janipour M.B.,  Gholizadeh S.S., Faraz M.K., Sayyadifar F., Ghaedi M. International Journal of Advanced Biotechnology and Research, 2012, 3:621

[62]. López C., Guerrero Correa M., Martínez F.B., Streitt C., Galotto M.J. Antimicrobial Resistance, 2020, 18:8889

[63]. Sadiq I.M., Chowdhury B., Chandrasekaran N., Mukherjee A. Nanomedicine: Nanotechnology, Biology, and Medicine, 2009, 5:282

[64]. Liao S., Zhang Y., Pan X. Int J Nanomedicine., 2019, 14:1469

[65]. Kumar M., Curtis A., Hoskins C. Pharmaceutics, 2018, 10:11

[66]. Al-Bakri A.G., Mahmoud N.N. Molecules (Basel, Switzerland), 2019,24:2661

[67]. Mohamed M.M., Fouad S.A., Elshoky H.A., Mohammed G.M., Salaheldin T.A. Int J Vet Sci Med., 2017, 5:23

[68]. Žalnėravičius R., Mikalauskaitė A., Niaura G., Paškevičius A., Jagminasa A. Materials Science and Engineering: C, 2019, 102:646

[69]. Roy A., Gauri S.S., Bhattacharya M., Bhattacharya J. J Biomed Nanotechnol., 2013, 9:1570

[70]. Abdal Dayem A., Hossain M.K., Lee S.B. Int J Mol Sci., 2017, 18:120

[71]. Achouri F., Said M.B., Wahab M.A. Environ Technol., 2020, 20:1

[72]. Armijo L.M., Wawrzyniec S.J., Kopciuch M. J Nanobiotechnology., 2020, 18:35

[73]. Khataminejad M.R., Mirnejad R., Sharif M., Hashemi M., Sajadi N., Piranfar V. Iran J Biotechnol., 2015, 13:43

[74]. Tang Z.X., Lv B.F. Brazilian Journal of Chemical Engineering, 2014, 31:591

[75]. Khezerlou A., Alizadeh-Sani M., Azizi-Lalabadi M., Ehsani A. Microbial Pathogenesis, 2018, 123:505

[76]. Masoud Hussein E.A., Mohammad A.A., Harraz F.A. Brazilian Archives of Biology and Technology, 2019, 62:8972

[77]. Abdel-Aziz M.M., Yosri M., Amin B.H. Journal of Radiation Research and Applied Sciences, 2017, 10:353

[78]. Reddy L.S., Nisha M.M., Joice M., Shilpa P.N. Pharm Biol., 2014, 52:1388

[79]. Sirelkhatim A., Mahmud S., Seeni A., Kaus N., Ann L.C., Bakhori S., Hasan H., Mohamad D. Nano-Micro Letters.,2015,7:219

[80]. Bankier C., Matharu R.K., Cheong Y.K. Sci Rep., 2019, 9:16074

[81]. Baptista P.V., McCusker M.P., Carvalho A. Front Microbiol., 2018, 9:1441

[82]. Ahmadi S., Kamaladini H., Haddadi F. J Fluoresc., 2018, 28:987

[83]. Kim K.J., Sung W.S., Suh B.K., Moon S.K., Choi J.S., Kim J.G., Lee D.G. BioMetals., 2009, 22:42

[84]. Alananbeh Kh., Al Refaee W.J., Al-Qodah Z. Indian Journal of Pharmaceutical Science, 2017, 79:559

[85]. Guilger-Casagrande M., de Lima R. Front Bioeng Biotechnol., 2019, 7:287

[86]. Yu K.P., Huang Y.T., Yang S.C. Journal of Hazardous Materials, 2013, 261:62

[87]. Irshad M.A., Nawaz R., Zia ur Rehman M., Imran M., Ahmad M.J., Ahmad S., Rizwan M., Ali  S., lRazzaq A. InamA. Chemosphere., 2020, 258:127352

[88]. Dananjaya S.H.S., Erandani W.K.C.U., Kim C.H., Nikapitiya C., Lee J., De Zoysa M. International Journal of Biological, 2017, 105:478

[89]. Ing L.Y., Zin N.M., Sarwar A., Katas H. International Journal of Biomaterials, 2012, 2012:1

[90]. Gondal M.A., Alzahrani A.J., Randhawa M.A., Siddiqui M.N. Journal of Environmental Science and Health, 2012, 47:8

[91]. Kumari P., Kumar H., Kumar J., Sohail M., Pratap Singh K., Prasad K. J. Nano Dimens., 2019, 10:320

[92]. Xia Z.K., Ma Q.H., Li S.Y. J Microbiol Immunol Infect., 2016, 49:182

[93]. Wani A.H., Shah M.A. Journal of Applied Pharmaceutical Science, 2012, 02:40

[94]. Arciniegas-Grijalba P.A., Patiño-Portela M.C., Mosquera-Sánchez L.P. Appl Nanosci., 2017, 7:225

[95]. Amiri M., Etemadifar Z., Daneshkazemi A., Nateghi M. J Dent Biomater., 2017, 4:347

[96]. Muñoz-Escobar A., Reyes-López S.Y. PLoS One, 2020, 15:e0228864

[97]. Ismail M.M., Salem D.M., Aly-Eldeen M.A. The Egyptian Journal of Aquatic Research, 2019, 45:197

[98]. Momenzadeh D., tavirani M.R., S Heidari K., Alizadeh A., Ghasemvand F., Ai A., Zadeh S.R. Journal of Pure and Applied Microbiology, 2014, 8:2003

[99]. Kerry R.G., Malik S., Redda Y.T., Sahoo S., Patra J.K., Majhi S. Nanomedicine: Nanotechnology, Biology, and Medicine., 2019, 18:196

[100]. Ghaffari H., Tavakoli A., Moradi A. J Biomed Sci., 2019, 26:70

[101]. Farouk F., Shebl R.I. Int J Nanoparticles Nanotech., 2018, 4:021

[102]. Mazurkova N.A., Spitsyna Y.E., Shikina N.V. Nanotechnol Russia, 2010, 5:417

[103]. Nakano R., Ishiguro H., Yao Y. Photochem Photobiol Sci., 2012, 11:1293

[104]. Galdiero S., Falanga A., Vitiello M., Cantisani M., Marra V., Galdiero M. Molecules., 2011, 16:8894

[105].Filho S.A., dos Santos O.A.L., dos Santos M.S., Backx B.P. J Nanotechnol Nanomaterials., 2020, 1:11

[106]. Allahverdiyev A.M., Abamor E.S., Bagirova M., Ustundag C.B., Kaya C., Kaya F. International Journal of Nanomedicine, 2011, 6:2705

[107]. Kenry., Lim Y.B., Nai M.H., Cao J., Loh K.P., Lim C.T. Nanoscale, 2017, 9:14065

[108]. Huang L., Yang H., Zhang Y., Xiao W. Journal of Nanomaterials, 2016, 2016:1

[109]. Chakraborty S., Bhar K., Saha S., Chakrabarti R., Pal A., Siddhanta A. J Parasitol Res., 2014, 2014:187640

[110]. Khan Y.A., Singh B.R., Ullah R., Shoeb M., Naqvi A.H., Abidi S.M. PLos One., 2015, 10:e0133086