The impact of a 'milking the COW' campaign in a regional hospital in Singapore.

BACKGROUND

Computerisation of various processes in hospitals and reliance on electronic devices raises the concern of contamination of these devices from the patient environment. We undertook this study to determine if an attached hand hygiene device that unlocks the screen of a computer on wheels (COW) on usage can be effective in decreasing the microbiological burden on computer keyboards.

METHODS

An electronic hand sanitizer was integrated onto the COW. A prospective cohort study with a crossover design involving 2 control and 2 intervention wards was used. The study end point was the number of colony forming units found on the keyboards. Bacteria were classified into 4 main groups; pathogenic, skin flora, from the environment or those thought to be commensals in healthy individuals. We then used a mixed effects model for the statistical analysis to determine if there were any differences before and after the intervention.

RESULTS

Thirty-nine keyboards were swabbed at baseline, day 7 and 14, with 234 keyboards cultured, colony forming units (CFUs) counted and organisms isolated. By mixed model analysis, the difference of mean bacteria count between intervention and control for week 1 was 32.74 (- 32.74, CI - 94.29 to 28.75, p = 0.29), for week 2 by 155.86 (- 155.86, CI - 227.45 to - 83.53, p < 0.0001), and after the 2-week period by 157.04 (- 157.04, CI - 231.53 to - 82.67, p < 0.0001). In the sub-analysis, there were significant differences of pathogenic bacteria counts for the Intervention as compared to the Control in contrast with commensal counts.

CONCLUSION

A hand hygiene device attached to a COW may be effective in decreasing the microbiological burden on computer keyboards.