Bacteriological Examination of Computer Keyboards and Mouse Devices and Their Susceptibility Patterns to Disinfectants
Onochie Charles Chimezie, Anyim Chukwudi, Alo Moses Nnaemeka, Onwa Ndubuisi Collins, Okonkwo Eucharia Chinyere and Afiukwa Felicitas Ngozi
DOI : 10.3844/ajmsp.2013.9.19
Current Research in Microbiology
Volume 4, Issue 1
Computers are ubiquitous and have been shown to be contaminated with potentially pathogenic bacteria in some communities. There is no economical way to test all the keyboards and mouse out there, but there are common-sense ways to prevent bacterial contamination or eliminate it if it exists. In this study, swabs specimens were collected from surfaces of 250 computer keyboards and mouse and plated on different bacteriological media. Organisms growing on the media were purified and identified using microbiological standards. It was found that all the tested computer keyboards and mouse devices, were positive for microbial contamination. The percentages of isolated bacteria (Staphylococcus spp., Escherichia spp., Pseudomonas spp. and Bacillus spp.) were 43.3, 40.9, 30.7, 34.1, 18.3, 18.2, 7.7 and 6.8% for computer keyboards and mouse respectively. The isolated bacteria were tested against the 6 different disinfectants (Dettol, Isol, Izal, JIK, Purit and Septol®). Antibacterial effects of the disinfectants were also concentration dependent. The agar well diffusion technique for determining Minimum Inhibitory Concentration (MIC) was employed. The Killing rate (K) and Decimal Reduction Time (DRT) of the disinfectants on the organism were also determined. The overall result of this study showed that Dettol®, followed by JIK® was highly effective against all the bacterial isolates tested while Septol and Izal® were least effective. Isol and Purit® showed moderate antibacterial effects. Keyboards and mouse should be disinfected daily. However, it is recommended that heightened surveillance of the microbial examination of computer keyboards should be undertaken at predetermined intervals.
© 2013 Onochie Charles Chimezie, Anyim Chukwudi, Alo Moses Nnaemeka, Onwa Ndubuisi Collins, Okonkwo Eucharia Chinyere and Afiukwa Felicitas Ngozi. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.