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Controlling Legionella in Hospital Water Systems: Experience With the Superheat-and-Flush Method and Copper-Silver Ionization

Published online by Cambridge University Press:  02 January 2015

Janet E. Stout ,
Yu-Sen E. Lin ,
Angella M. Goetz  and
Robert R. Muder
Janet E. Stout
Affiliation:
Special Pathogens Laboratory and Infectious Disease Section, Veterans' Affairs Pittsburgh Health Care System, University Drive Division University of Pittsburgh School of Medicine, Pittsburgh, Pennsylvania
Yu-Sen E. Lin
Affiliation:
Special Pathogens Laboratory and Infectious Disease Section, Veterans' Affairs Pittsburgh Health Care System, University Drive Division
Angella M. Goetz
Affiliation:
Special Pathogens Laboratory and Infectious Disease Section, Veterans' Affairs Pittsburgh Health Care System, University Drive Division
Robert R. Muder*
Affiliation:
Special Pathogens Laboratory and Infectious Disease Section, Veterans' Affairs Pittsburgh Health Care System, University Drive Division University of Pittsburgh School of Medicine, Pittsburgh, Pennsylvania
*
VA Medical Center, Infectious Disease Section, University Drive C, Pittsburgh, PA 15240
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Abstract

Objective:

To evaluate the effect of copper-silver ionization on Legionella colonization and nosocomial legionnaires' disease and to compare the efficacy of metal ions versus the super-heat-and-flush method of disinfection.

Design:

Prospective determination over a 36-month period of copper and silver ion concentrations in the recirculating hot-water system, Legionella colonization of the hospital water distribution system, and cases of nosocomial legionnaires' disease. Retrospective comparison of results with the previous 13 years, during which the superheat-and-flush method was used.

Setting:

The Pittsburgh Veterans' Affairs Health Care System (University Drive Division) acut-care hospital.

Intervention:

Three copper-silver ionization systems were installed on the hot-water distribution system in November 1994.

Results:

The average number of cases of legionnaires‘ disease per year and the percentage of distal sites positive for Legionella pneumophila for the superheat-and-flush method versus the copper-silver ionization method was six cases with 15% positivity versus two cases with 4% positivity, respectively. The reduction in Legionella colonization after copper-silver ionization was significant (P<.05) compared to the superheat and flush. Mean copper and silver ion concentrations (mg/L) were 0.29 and 0.054 from hot-water tanks, and 0.17 and 0.04 from distal outlets, respectively.

Conclusions:

We conclude that a properly maintained and monitored copper-silver ionization system was more effective than the superheat-and-flush method for reducing the recovery of Legionella from the hospital water distribution system.

Type
Original Articles
Information
Infection Control & Hospital Epidemiology , Volume 19 , Issue 12 , December 1998 , pp. 911 - 914
Copyright
Copyright © The Society for Healthcare Epidemiology of America 1998

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References

1.Best, M, Yu, VL, Stout, J, Goetz, A, Muder, RR, Taylor, F. Legionellaceae in the hospital water supply—epidemiological link with disease and evaluation of a method of control of nosocomial legionnaires‘ disease and Pittsburgh pneumonia. Lancet 1983;2:307310.Google Scholar
2.Thurman, RB, Gerba, CP. The molecular mechanisms of copper and silver ion disinfection of bacteria and viruses. CRC Critical Reviews in Environmental Control 1989;18(4):295314.Google Scholar
3.Liu, Z, Stout, JE, Tedesco, L, Boldin, M, Hwang, C, Diven, WF, et al.Controlled evaluation of copper-silver ionization in eradicating Legionella pneumophila from a hospital water distribution system. J Infect Dis 1994;169:919922.Google Scholar
4.Lin, YE, Vidic, RD, Stout, JE, Yu, VL. Individual and combined effects of copper and silver ions on inactivation of Legionella pneumophila. Water Research 1996;30:19051913.Google Scholar
5.Stout, JE, Joly, J, Para, M, Plouffe, J, Ciesielski, C, Blaser, MJ, et al.Comparison of molecular methods for subtyping patients and epidemiologi-cally-linked environmental isolates of L pneumophila. J Infect Dis 1988;157:486494.Google Scholar
6.Chang, FY, Jacobs, SL, Colodny, SM, Stout, JE, Yu, VL. Nosocomial legionnaires‘ disease caused by Legionella pneumophila serogroup 5: laboratory and epidemiological infection. J Infect Dis 1996;174:11161119.Google Scholar
7.Vickers, RM, Stout, JE, Yu, VL, Rihs, JD. Manual of culture methodology for Legionella. Semin Respir Infect 1987;2:274279.Google Scholar
8.Marrie, TJ, Haldane, D, Macdonald, S. Control of endemic nosocomial legionnaires‘ disease by using sterile potable water for high risk patients. Epidemiol Infect 1991;107:591605.Google Scholar
9.Hutchinson, DN. Nosocomial legionellosis. Reviews of Medical Microbiology 1990;1:108115.Google Scholar
10.Joseph, CA, Watson, JM, Harrison, TG, Bartlett, CLR. Nosocomial legionnaires' disease in England and Wales. Epidemiol Infect 1994;112:329345.Google Scholar
11.Helms, CM, Massanari, M, Wenzel, RP, Pfaller, MA, Mayer, NP, Hall, N. Legionnaires' disease associated with a hospital water system: a five year progress report on continuous hyperchlorination. JAMA 1988;259:24232427.Google Scholar
12.Swan, SH, Waller, K, Hopkins, B, Windham, G, Fenster, L, Schaefer, C, et al.A prospective study of spontaneous abortion: relation to amount and source of drinking water consumed in early pregnancy. Epidemiology 1998;9:126133.Google Scholar
13.Mietzner, S, Schwille, RC, Farley, A, Wald, ER, Ge, JH, States, SJ, et al.Efficacy of thermal treatment and copper-silver ionization for controlling Legionella pneumophila in high volume hot water plumbing systems in hospitals. Am J Infect Control 1997;25:452457.Google Scholar
14.Lin, YE, Stout, JE, Yu, VL, Vidic, RD. Disinfection of water distribution systems for Legionella. Semin Respir Infect 1998;13:147149.Google Scholar
15.Goetz, A, Yu, VL. Copper-silver ionization: cautious optimism for Legionel-la disinfection and implications for environmental culturing. Am J Infect Control 1997;25:449451.Google Scholar