Add to ORKGBackground: Computers / laptops are ubiquitous in the healthcare setting and have been shown to be contaminated with potentially pathogenic microorganisms. Aims & Objectives: To determine the degree of pathogenicity on the computer/laptops keyboards. Materials & Methods: Specimens were collected from 25 laptops that were located in the clinical section of a dental college. To determine the level of microbial contamination for the disinfection efficacy testing, a single sterile swab moistened with trypticase soy broth (TSB) was wiped over the entire keyboard surface of the laptop. Results: Potential pathogens cultured from more than 80 % of the computers. These organisms included coagulase-negative staphylococci (88 % of keyboards), ...
We would like to test the effectiveness of various disinfectants over a period of time to determine ...
Objective: To determine the prevalence and nature of potential bacterial pathogens isolated on physi...
Figure 1: 97.8 % reduction of viable MRSA on Biosafe material at T = 240 min. Contact with contamina...
Computers are increasingly present in operating rooms, dental examination rooms, Intensive care unit...
Background: Computers and telephones are ubiquitous in the hospital and have been shown to be contam...
Background: Surface contamination of public user interface systems such as computer keyboards and mo...
Background and Aim: The aim of this study was to evaluate bacterial contamination of keyboards of co...
Objective To determine the extent and type of microbial contamination of computer peripheral devices...
BACKGROUND: An ideal computer keyboard for clinical use would be easily cleanable and cleaned by sta...
IntroductionHealthcare environmental surfaces may be contaminated with micro-organisms that cause he...
Microbial contamination of computer keyboards and inanimate surfaces of electronic equipment in ICU ...
Copyright © 2013 Gabriele Messina et al. This is an open access article distributed under the Creati...
The keyboards of multiple-user (student) and single-user (staff) computers located on a university c...
Introduction: Mobile phones and computers are a reservoir of growth and transmission of microorganis...
The main aim of our study was to verify the effectiveness of simple disinfection using wet wipes for...
We would like to test the effectiveness of various disinfectants over a period of time to determine ...
Objective: To determine the prevalence and nature of potential bacterial pathogens isolated on physi...
Figure 1: 97.8 % reduction of viable MRSA on Biosafe material at T = 240 min. Contact with contamina...
Computers are increasingly present in operating rooms, dental examination rooms, Intensive care unit...
Background: Computers and telephones are ubiquitous in the hospital and have been shown to be contam...
Background: Surface contamination of public user interface systems such as computer keyboards and mo...
Background and Aim: The aim of this study was to evaluate bacterial contamination of keyboards of co...
Objective To determine the extent and type of microbial contamination of computer peripheral devices...
BACKGROUND: An ideal computer keyboard for clinical use would be easily cleanable and cleaned by sta...
IntroductionHealthcare environmental surfaces may be contaminated with micro-organisms that cause he...
Microbial contamination of computer keyboards and inanimate surfaces of electronic equipment in ICU ...
Copyright © 2013 Gabriele Messina et al. This is an open access article distributed under the Creati...
The keyboards of multiple-user (student) and single-user (staff) computers located on a university c...
Introduction: Mobile phones and computers are a reservoir of growth and transmission of microorganis...
The main aim of our study was to verify the effectiveness of simple disinfection using wet wipes for...
We would like to test the effectiveness of various disinfectants over a period of time to determine ...
Objective: To determine the prevalence and nature of potential bacterial pathogens isolated on physi...
Figure 1: 97.8 % reduction of viable MRSA on Biosafe material at T = 240 min. Contact with contamina...