Hostname: page-component-586b7cd67f-2plfb Total loading time: 0 Render date: 2024-12-02T19:43:27.562Z Has data issue: false hasContentIssue false

Experimental studies on environmental contamination with infected blood during haemodialysis

Published online by Cambridge University Press:  15 May 2009

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.

To assess the relative importance of different postulated modes of spread of hepatitis B in dialysis units, blood charged with various tracer organisms was used in simulated haemodialysis runs in four laboratories, and the resulting contamination of equipment and environment was measured semi-quantitatively.

Some airborne spread of the tracer organism occurred when tubing containing contaminated blood was needled as the ‘patient’ went on and came off the dialyser. Virtually no small airborne particles could be demonstrated however in simulated emergencies in which a blood line was disconnected, or even when bottles of blood were dropped on to a hard floor from a height of 2 metres.

Bacillus globigii spores from contaminated blood leaked in small numbers into the dialysing fluid through apparently intact coils. T3 phage, with a particle size of the same order as hepatitis B virus, passed in small quantities through the membrane of a Kiil dialyser from blood to dialysing fluid and also in the reverse direction when added to the header tank. A number of other dialysers were also permeable to phage.

Visual assessment of the appropriate moment for inserting the venous line into the ‘patient’ at the onset of dialysis was shown to be unreliable, as the displaced fluid from the end of the venous line was already contaminated before it contained visible red blood cells.

Considerable contamination of exposed surfaces and of the buttons on the proportionating unit cabinet occurred. Minor visible splashing of blood was a commonplace of the laboratory experiments and was shown to be also a common event during routine haemodialysis in two of the dialysis units taking part in the studies.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1975

References

REFERENCES

Almeida, J. D., Chisholm, G. D., Kulatilake, A. E., MacGregor, A. B., MacKay, D. H., O'donoghue, E. P. N., Shackman, R. & Waterson, A. P. (1971). Possible airborne spread of serum-hepatitis virus within a haemodialysis unit. Lancet ii, 849.Google Scholar
Jones, D. M., Tobin, B. M., Harlow, G. R. & Ralston, A. J. (1972). Antibody production in patients on regular haemodialysis to organisms present in dialysate. Proceedings of the European Dialysis and Transplant Association 9, 575.Google Scholar
Marmion, B. P. & Tonkin, R. W. (1972). Control of hepatitis in dialysis units. British Medical Bulletin 28, 169.Google Scholar
Polakoff, S. S., Cossart, Y. E. & Tillett, H. E. (1972). Clinical problems: hepatitis in dialysis units in the United Kingdom. British Medical Journal iii, 94.CrossRefGoogle Scholar
Public Health Laboratory Service (1968). Infection risks of haemodialysis: some preventive aspects. British Medical Journal iii, 454.Google Scholar
Report (1972). Report of the Advisory Group on Hepatitis and the Treatment of Chronic Renal Failure. Department of Health and Social Security, 1972.Google Scholar