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Prevalence of Colonization with Antibiotic Resistant Gram-Negative Bacilli in a Nursing Home Care Unit: The Importance of Cross-Colonization as Documented by Plasmid Analysis

Published online by Cambridge University Press:  02 January 2015

David M. Shlaes ,
Mary-Helen Lehman ,
Charlotte A. Currie-McCumber ,
C.H. Kim  and
Rachel Floyd
David M. Shlaes*
Affiliation:
Infectious Diseases Section, Research and Nursing Services, Cleveland Veterans Administration Medical Center and Case Western Reserve University, Cleveland, Ohio
Mary-Helen Lehman
Affiliation:
Infectious Diseases Section, Research and Nursing Services, Cleveland Veterans Administration Medical Center and Case Western Reserve University, Cleveland, Ohio
Charlotte A. Currie-McCumber
Affiliation:
Infectious Diseases Section, Research and Nursing Services, Cleveland Veterans Administration Medical Center and Case Western Reserve University, Cleveland, Ohio
C.H. Kim
Affiliation:
Infectious Diseases Section, Research and Nursing Services, Cleveland Veterans Administration Medical Center and Case Western Reserve University, Cleveland, Ohio
Rachel Floyd
Affiliation:
Infectious Diseases Section, Research and Nursing Services, Cleveland Veterans Administration Medical Center and Case Western Reserve University, Cleveland, Ohio
*
Infectious Diseases and Microbiology, Cleveland Veterans Administration Medical Center, 10701 East Boulevard, Cleveland, OH 44106
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Abstract

A prevalence study was carried out on a 100-bed Veterans Administration nursing home care unit to determine the extent of colonization with gentamicin-resistant gram-negative bacilli (GRGNB). Hand cultures of 12 employees and 17 environmental cultures were negative. Twenty-six of 86 (30%) patients were colonized with 49 GRGNB. Sixteen patients (19%) had urinary colonization. Multivariate analysis revealed significant associations between rectal or perineal colonization (P<0.01), and the presence of a urinary device (82% condom catheters) (P<0.05), with urinary colonization. The most common isolates were Providencia stuartii (20), Escherichia coli (nine) and Klebsiella pneumoniae (nine). Twenty-six of 49 isolates carried plasmids. Restriction endonuclease digestion of plasmid DNA was performed for 21. Cross-colonization, as defined by the presence of the identical species with the identical restriction endonuclease digestion profile of purified plasmid DNA found in different patients, was observed for eight of 21 (38%) strains. All were geographically clustered. No strains could transfer gentamicin-resistance by conjugation and only two plasmids could transform our E coli recipient to gentamicin resistance. One E coli plasmid was identical to two Citrobacter freundii plasmids and a P stuartii plasmid isolated from three different patients. This 105 kb plasmid is conjugative and encodes resistance to ampicillin, carbenicillin, tetracycline, and sulfonamides. Thus, 57% of strains were cross-colonizing or contained identical R-plasmids. Southern hybridization using a 1 kb TEM-1 gene probe demonstrated sequences homologous to this probe in five of five nursing home plasmids examined. These data demonstrate the utility of plasmid analysis in epidemiologic typing of multiple species of Enterobacteriaceae, and suggest wide dissemination of R-plasmids bearing the TEM-1β-lactamase gene among gram-negative bacilli colonizing patients residing in our nursing home.

Type
Original Articles
Information
Infection Control & Hospital Epidemiology , Volume 7 , Issue 11 , November 1986 , pp. 538 - 545
Copyright
Copyright © The Society for Healthcare Epidemiology of America 1986

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References

1.Dontas, AS, Kasviki-Charvati, P, et al: Bacteruria and survival in old age. N Engl J Med 1981; 304:939943.Google Scholar
2.Platt, R, Polk, BF, Murdock, B, Rosner, B: Mortality associated with nosocomial urinary-tract infection. N Engl J Med 1982; 307:637642.Google Scholar
3.Madden, JW, Croker, JR, Beynon, GPJ: Septicaemia in the elderly. Postgrad Med 1981; 57:502506.CrossRefGoogle ScholarPubMed
4.Gleckman, R, Blagg, N, Hibert, D, et al: Catheter-related urosepsis in the elderly: A prospective study of community-derived infections. J Am Geriatr Soc 1982; 30:255257.Google Scholar
5.Sherman, FT, Tucci, V, Libow, LS, et al: Nosocomial urinary-tract infections in a skilled nursing facility. J Am Geriatr Soc 1980; 28:456461.Google Scholar
6.Irvine, PW, Van Buren, N, Crossley, K: Causes for hospitalization of nursing home residents: The role of infection. J Am Geriatr Soc 1984; 32:103107.Google Scholar
7.Johnson, ET: The condom catheter: Urinary tract infection and other complications. South Med J 1983; 76:579582.Google Scholar
8.Bjork, DT, Pelletier, LL, Tight, RR: Urinary tract infections with antibiotic resistant organisms in catheterized nursing home patients. Infect Control 1984; 5:173176.CrossRefGoogle ScholarPubMed
9.Casewell, MW, Webster, M, Dalton, MT, et al: Gentamicin-resistant Klebsiella aerogenes in a urological ward. Lancet 1977; 2:444446.Google Scholar
10.Gerding, DN, Baxton, AE, Hughes, RA, et al: Nosocomial multiply resistant Klebsiella pneumoniae: Epidemiology of an outbreak of apparent index case origin. Antimicrob Agents Chemother 1979; 15:608615.Google Scholar
11.Sadowski, PL, Peterson, BC, Gerding, DN, et al: Physical characterization of ten R plasmids obtained from an outbreak of nosocomial Klebsiella pneumoniae infections. Antimicrob Agents Chemother 1979; 15:616624.Google Scholar
12.Shlaes, DM, Currie, CA, Rotter, G, et al: The epidemiology of gentamicin-resistant gram negative bacillary colonization on a spinal cord injury unit. J Clin Microbiol 1983; 18:227235.Google Scholar
13.Shlaes, DM, Currie, CA: Endemic gentamicin-resistance R factors on a spinal cord injury unit. J Clin Microbiol 1983; 18:236241.Google Scholar
14.Shlaes, DM, Currie-McCumber, CA, Eanes, M, et al: Gentamicin resistance plasmids in an intensive care unit. Infect Control 1986; 7(7):355361.CrossRefGoogle Scholar
15.Shlaes, DM, Vartian, CV, Currie, CA: Variability in DNA sequence of closely related nosocomial gentamicin-resistance plasmids. J Infect Dis 1983; 148:10131018.Google Scholar
16.Cooksey, RC, Clark, NE, Thornsberry, C: A gene probe for TEM type β-lactamases. Antimicrob Agents Chemother 1985; 28:154156.Google Scholar
17.Shlaes, DM, Kran, MA, Medeiros, AA, et al: A novel plasmid-mediated β-lactamase in Enterobacteriaceae from Ohio. Antimicrob Agents Chemother 1986; 30:220224.CrossRefGoogle ScholarPubMed
18.National Committee for Clinical Laboratory Standards. Performance standards for antimicrobic disk susceptibility tests, M2A-3. Villanova, PA, National Committee for Clinical Laboratory Standards, 1984.Google Scholar
19.Tenover, FC, Gootz, TD, Gordon, KP, et al: Development of a DNA probe for the structural gene of the 2"—O—adenyltransferase aminoglycoside-modifying enzyme. J Infect Dis 1984; 150:678687.Google Scholar
20.Kasviki-Charvati, P, Drolette-Kefakis, B, Papanayiotou, PC, et al: Turnover of bacteruria in old age. Age Aging 1982; 11:169174.Google Scholar
21.Gambert, SR, Duthie, EH, Priefer, B, et al: Bacterial infections in a hospital-based skilled nursing facility. J Chron Dis 1982; 35:781786.Google Scholar
22.Ouslander, JG, Kane, RL, Abrass, IB: Urinary incontinence in elderly nursing home patients. JAMA 1982; 248:11941198.Google Scholar
23.Fierer, J, Eckstrom, M: An outbreak of Providentia stuartii urinary tract infections—Patients with condom catheters are a reservoir of the bacteria. JAMA 1981; 245:15531555.Google Scholar
24.Hirsch, DD, Fainstein, V, Musher, DM: Do condom catheter collecting systems cause urinary tract infection? JAMA 1979; 242:340341.Google Scholar
25.Gross, PA, Rapuano, C: Adrignolo, A, et al: Nosocomial infections: Decade-specific risk. Infect Control 1983; 4:145147.CrossRefGoogle ScholarPubMed
26.Tompkins, LS, Plorde, JJ, Falkow, S: Molecular analysis of R-factors from multi-resistant nosocomial isolates. J Infect Dis 1980; 14:625635.Google Scholar
27.Courney, MA, Miller, JR, Summersgill, J, et al: R-factor responsible for an outbreak of multiply antibiotic resistant Klebsiella pneumoniae. Antimicrob Agents Chemother 1980; 18:926929.CrossRefGoogle Scholar
28.O'Brien, TF, Ross, DG, Guzman, MA, et al: Dissemination of an antibiotic resistance plasmid in hospital patient flora. Antimicrob Agents Chemother 1980; 17:537543.Google Scholar
29.Markowitz, SM, Veazey, JM, Macrina, FL, et al: Sequential outbreaks of infection due to Klebsiella pneumoniae in a neonatal intensive care unit. J Infect Dis 1980; 142:106112.Google Scholar
30.John, JF, McKee, KT, Twitty, JA, Schaffner, W: Molecular epidemiology of sequential nursery epidemics caused by multiresistant Klebsiella pneumoniae. J Pediatr 1983; 102:825830.Google Scholar
31.John, JF, McNeill, WF: Characteristics of plasmid-containing gentamicin-resis-tant Serratia marcescens in nosocomial infections. J Infect Dis 1981; 143:810817.CrossRefGoogle Scholar
32.Rubens, CE, Farrar, WE, McGee, ZA, Schaffner, W: Evolution of a plasmid mediating resistance to multiple antimicrobial agents during a prolonged epidemic of nosocomial infections. J Infect Dis 1981; 143:170181.Google Scholar
33.Datta, N, Hughes, VM, Nugent, ME, Richards, H: Plasmids and transposons and their stability and mutability in bacteria isolated during an outbreak of hospital infection. Plasmid 1979; 2:182196.Google Scholar
34.Guidelines for the Prevention and Control of Nosocomial Infections. Guideline for Prevention of Urinary Tract Infections, Revised, 1982. Washington DC, US Department of Health and Human Services, Public Health Service, Centers for Disease Control, 1982.Google Scholar