Prevalence and plasmid DNA profiles of antibiotic resistant bacterial isolates from mobile phones of volunteer University students in Sagamu Nigeria

Contenu principal de l'article

Olufemi L. Okunye
Philip A. Idowu
Babatunde M. Okanlawan
Abel O. Idowu
Elijah O. Oyinloye

Résumé

Background: Mobile phones are devices that can receive and make calls over a radio frequency link while the user is moving within a telephone service area. They are indispensable devices for professional and social life. There is a potential for microbial colonization of this device from the users. This study evaluated the prevalence, resistance to conventional antibiotics and plasmid profiles of some selected bacterial isolates from the phones of volunteers’ students.


Methods: A total number of one hundred (100) phone swab samples were collected and inoculated in peptone broth and incubated overnight. The inoculums were thereafter sub-cultured in different culture media for the isolation of various bacteria and their identity were confirmed using standard biochemical tests; catalase test, coagulase test, oxidase test, indole test, methyl red test, DNAse test, citrate utilization and haemolysis test. Antibiotic susceptibility using modified Kirby Bauer methods and plasmid profile analysis of some selected resistant isolates were determined.


Results: The prevalence of Staphylococcus aureus had the highest (62%) followed by Escherichia coli (50%),Pseudomonas aeruginosa (44%), Streptococcus spp (20%) and coagulase negative staphylococci (18%) respectively. The antibiogram of the biochemically characterized isolates showed varied patterns of antibiotics resistance and plasmid molecular weights profiles.


Conclusion: The prevalence of pathogenic bacteria with remarkable resistance to a broad spectrum of antibiotics and with plasmids of varied molecular weights from the phones of the volunteers showed the potential of the phones as a possible agent of transmission of pathogenic infection.

Téléchargements

Les données relatives au téléchargement ne sont pas encore disponibles.

Renseignements sur l'article

Comment citer
L. Okunye, O. ., A. Idowu, P. ., M. Okanlawan, B. ., O. Idowu, A. ., & O. Oyinloye, E. . (2021). Prevalence and plasmid DNA profiles of antibiotic resistant bacterial isolates from mobile phones of volunteer University students in Sagamu Nigeria. Nigerian Journal of Pharmaceutical and Applied Science Research, 10(3), 23–31. Consulté à l’adresse http://mail.nijophasr.net/index.php/nijophasr/article/view/446
Rubrique
Articles

Références

Srivastava, Viranjay M.; Singh, Ghanshyam. MOSFET Technologies for Double-Pole Four-Throw Radio-Frequency Switch. Springer Science & Business Media (2013). ISBN 9783319011653

John F. Mitchell. Biography. Who invented the cell phone? Journal of Earth Environment and Health Sciences(2015) 1:(1) (2015): 27-31

Heeks, Richard "Meet Marty Cooper – the inventor of the mobile phone"(2008).. BBC. 41 (6): 26–33. doi:10.1109/MC.2008.192. S2CID 16661269.

Tagoe DN, GyandeVK ,Ansah EQ Bacterial contamination of mobile phones: when your phone could transmit more than just a call. Web Med Cent Microbol 2011 2 WMC 002294

Verran, J The microbial contamination of mobile communication devices. J. Microbiol. Biol. Educ. (2012):13: 59–61.

Meadow JF,Altrichiter AE, Green JL. Mobile phones carry the personal microbiome of their owners Journal of Life and Environmental Sciences (2014) Peer j(2): e447 DOI 10.7717/Peer j. 447PubMed

Brady RRB, Wasson A, Sterling I, McAllister C, Damani NN. Is your phone bugged? The incidence of bacteria known to cause nosocomial infection on health care workers’ mobile phones. J. Hosp. Infect. 2006; 62:112–125. doi: 10.1016/j.

Ekrakene, CL Igbeleke Micro-organisms associated with public mobile phones along benin-sapele Express way, Benin city, Edo state of Nigeria J. ApplSci Res (2007)3 :(12), 2009-12

Ted. RJ, Christine LC.Laboratory Experiments in Microbiology (2010) ISBN 10:0-321-64081-0

Detta P, Ranni H, Chander J(2009) Bacteria contamination of mobile phones of health care workers. India J Med Microbol 2009 27(3); 279-281.

Omololu-AJ DO Kolawole, OO Omololu-Aso, SOAjisebutu. Antibiotics sensitivity pattern of Staphylococcus aureus from fomites in the Obafemi Awolowo University Teaching Hospital Complex (OAUTHC) Nigeria Int J Med MedSci(2011) 3, 32-6, 2011

Tong SY, Davis JS, Eichenberger E, Holland TL, Fowler VG. "Staphylococcusaureusinfections: epidemiology, pathophysiology, clinical manifestations, and management". Clinical Microbiology Reviews. (2015). 28 (3): 603–61. doi:10.1128

MM Khan, AftabFaiz, Ahmad Mohammad Ashshi. Clinically significant Coagulase Negative Staphylococci and their antibiotic resistance pattern in a tertiary care hospital. J Pak Med Assoc(2014).64 (10), 1171-4, 2014

Farida Anjum, Asif Mir. Susceptibility pattern of Pseudomonas aeruginosa against various antibioticsAfrican Journal of Microbiology Research (2010) 4 (10), 1005-1012, 2010.

Famurewa O, David OMCell phone: A medium of transmission of bacterial pathogens. World Rural Obser. (2009);1(2):69?72.

Stevens DL. Invasive group A streptococcal infection: the past, present and future. Pediatric Infect. Dis. J. (1994):13:561-566

Thomas CM, Summers D. Bacterial Plasmids. Encyclopedia of Life Sciences. (2008).. doi:10.1002/9780470015902.a0000468.pub2. ISBN 978-0470016176.

Rusin P, Maxwell S, Gerba C. Comparative surface?to?hand and fingertip?to? mouth transfer efficiency of gram?positive bacteria, Gram?negative bacteria and phage. J. Appl. Microbial (2002). ; 93(4):585?92. DOI: 10.1046/j.136 5?2672.2002.01734.