Hostname: page-component-586b7cd67f-l7hp2 Total loading time: 0 Render date: 2024-11-23T23:06:07.903Z Has data issue: false hasContentIssue false

Ward floors and other surfaces as reservoirs of hospital infection

Published online by Cambridge University Press:  15 May 2009

G. A. J. Ayliffe
Affiliation:
Hospital Infection Research Laboratory, Summerfield Hospital, Birmingham
B. J. Collins
Affiliation:
Hospital Infection Research Laboratory, Summerfield Hospital, Birmingham
E. J. L. Lowbury
Affiliation:
Hospital Infection Research Laboratory, Summerfield Hospital, Birmingham
J. R. Babb
Affiliation:
M.R.C. Industrial Injuries and Burns Research Unit, Birmingham Accident Hospital
H. A. Lilly
Affiliation:
M.R.C. Industrial Injuries and Burns Research Unit, Birmingham Accident Hospital
Rights & Permissions [Opens in a new window]

Extract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Impression plates from initially clean horizontal surfaces and floor areas in surgical wards showed a rapid accumulation of bacteria, mainly micrococci, which reached a fluctuating equilibrium after about 24 h. A later increase in bacterial contamination (mainly with aerobic sporing bacilli) to a higher equilibrium level after about 14 days occurred on uncleaned areas. Walls, even if left unwashed, acquired very few bacteria, but many were deposited locally when the wall was touched by a subject whose skin carried large numbers of staphylococci; moist exposed plaster was also heavily contaminated.

Regular use of a disinfectant (‘Sudol’ 1 in 100) in cleaning a ward floor did not reduce the equilibrium level of bacteria on the floor.

The transfer of staphylococci from contaminated to clean areas on the soles of shoes was demonstrated; the use of tacky and disinfectant mats did not appreciably reduce the transfer of bacteria by this route.

Staphylococci deposited on a wall by a disperser were shown to be transferred from the contaminated area of wall to the hands of another subject who did not previously carry the organism; this subject was shown to transfer the staphylo-coccus to a wall which he touched.

Attempts to redisperse by air movement Staph. aureus which had been shed by a disperser or by a contaminated blanket on to the floor surfaces had little effect; neither blowing with a hair dryer nor brisk exercise appeared to lift any of the staphylococci from a vinyl surface, and only small numbers were lifted by these measures from a terrazzo surface.

The hazards of infection from the inanimate environment are discussed.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1967

References

REFERENCES

Ayliffe, G. A. J. & Collins, B. J. (1967). Wound infection acquired from a disperser of an unusual strain of Staphylococcus aureus. J. clin. Path. 20, 195.CrossRefGoogle ScholarPubMed
Ayliffe, G. A. J., Collins, B. J. & Lowbury, E. J. L. (1966). Cleaning and disinfection of hospital floors. Brit med. J. ii, 442.Google Scholar
Babb, J. R., Lilly, H. A. & Lowbury, E. J. L. (1963). Cleaning of hospital floors with oiledmops. J. Hyg., Camb. 61, 393.Google Scholar
Barber, M. & Kuper, S. W. A. (1951). Identification of Staph. pyogenes by the phosphatase reaction. J. Path. Bact. 63, 65.CrossRefGoogle Scholar
Bate, J. G. (1961). Bacteriological investigation of exhaust air from hospital vacuum cleaners. Lancet i, 159.CrossRefGoogle Scholar
Bernard, H. R., Speers, R., O'Grady, F. & Shooter, R. A. (1965). Reduction of dissemination of skin bacteria by modification of operating room clothing and by ultra-violet irradiation. Lancet ii, 458.CrossRefGoogle Scholar
Brunskill, R. T. (1966). Quoted by Lidwell O. M. (1967) in Take-off of bacteria and viruses. Symp. Soc. gen. Microbiol. no. 17, p. 133.Google Scholar
Carson, W. (1966). Quoted by Lidwell O. M. (1967) in Take-off of bacteria and viruses. Symp. Soc. gen. Microbiol. no. 17, p. 132.Google Scholar
Clarke, S. K. R., Dalgleish, P. G., Parry, E. W. & Gillespie, W. A. (1954). Cross-infection with penicillin-resistant Staph. aureus: effect of oiling floors and bed-clothes in a surgical ward. Lancet ii, 211.CrossRefGoogle Scholar
Favero, M. S., Puleo, J. R., Marshall, J. H. & Oxborrow, G. S. (1966). Comparative levels and types of microbial contamination detected in industrial clean rooms. Appl. Microbiol. 14, 539.Google Scholar
Finegold, S. M., Sweeney, E. E., Gaylor, D. W., Brady, D. & Miller, L. G. (1962). Hospital floor decontamination; controlled blind studies in evaluation of germicides. Anti-microb. Agents & Chemother. p. 250.Google Scholar
Foster, W. D. (1960). Environmental staphylococcal contamination; a study by a new method. Lancet i, 670.CrossRefGoogle Scholar
Froud, P. J., Alder, V. G. & Gillespie, W. A. (1966). Contaminated areas in operating theatres. Lancet ii, 961.CrossRefGoogle Scholar
Jones, I. S. & Pond, S. F. (1966). Quoted by Lidwell O. M. (1967) in Take-off of bacteria and viruses. Symp. Soc. gen. Microbiol. no. 17, p. 133.Google Scholar
Lidwell, O. M. & Lowbury, E. J. L. (1950). The survival of bacteria in dust. J. Hyg., Camb. 48, 28.CrossRefGoogle ScholarPubMed
Lowbury, E. J. L. & Fox, J. E. (1953). The influence of atmospheric drying on the survival of wound flora. J. Hyg., Camb. 51, 203.CrossRefGoogle ScholarPubMed
Skaliy, P. & Sciple, G. W. (1964). Survival of staphylococci on hospital surfaces. Archs envir. Hlth 8, 636.Google Scholar
Ten, Gate L. (1965). A note on a simple and rapid method of bacteriological sampling by means of agar sausages. J. appl. Bact. 28, 221.Google Scholar
Van Den Ende, M., Lush, D. & Edward, D. G. ff (1940). Reduction of dust-borne bacteria by treating floors. Lancet ii, 133.Google Scholar
Vesley, D. & Michaelson, G. S. (1964). Application of a surface sampling technique to the evaluation of the bacteriological effectiveness of certain housekeeping procedures. Hlth Lab. Sci. 1, 107.Google Scholar
Walter, C. W. & Kundsin, R. B. (1960). The floor as a reservoir of hospital infection. Surg. Gynec. Obstet. 111, 412.Google Scholar
Wypkema, W. & Alder, V. G. (1962). Hospital cross infection and dirty walls. Lancet ii, 1066.CrossRefGoogle Scholar