Molecular and Epidemiologic Study of Multiresistant Serratia marcescens Infections in a Spinal Cord Injury Rehabilitation Unit | Infection Control & Hospital Epidemiology | Cambridge Core (original) (raw)
Abstract
Between March 1984 and February 1986, ten patients admitted to a spinal cord injury/stroke rehabilitation unit became bacteriuric with a strain of Serratia marcescens resistant to ampicillin, cephalothin, cefoxitin, ticarcillin, cotrimoxazole, gentamicin, and tobramycin. All the patients were catheterized, and in most, bacteriuria was asymptomatic. The organism was also recovered from their hospital environment (sinks, toilets, urine-collecting basins). Analysis of total plasmid content of multiresistant isolates revealed the presence of two plasmids (7 kilobase, 25.5 kilobase), not found in aminoglycoside susceptible strains of Serratia marcescens. Restriction endonuclease analysis and Southern hybridization (DNA probe: 25.5 kilobase plasmid) verified that these plasmids were identical. The 25.5 kilobase plasmid was purified, introduced by transformation into an Escherichia coli strain C recipient, and was found to mediate resistance to gentamicin and tobramycin. The emergence of multiresistant Serratia marcescens coincided with an increase in antibiotic usage on the ward. The reservoir seemed to be the urinary tracts of asymptomatic catheterized patients and their contaminated hospital environment.
References
Schaberg, DR. Alford, RH, Anderson, R, et al: An outbreak of nosocomial infection due to multiply resistant Serratia marcescens: Evideuce of inter-hospital spread. J Infect Dis 1976; 134:181–188.Google Scholar
Yu, VL, Oakes, CA. Axnick, KJ, et al: Patient factors contributing to the emergence of gentamicin-resistant Serratia marcescens . Am J Med 1979; 66:468–472.Google Scholar
Krieger, JN, Levy-Zombek, E, Scheidt, A. et al: A nosocomial epidemic of antibiotic-resistant Serratia marcescens urinary tract infections. J Urol 1980; 124:498–502.Google Scholar
Arroyo, JC, Milligan, WL. Postic, B, et al: Clinical, epidemiologic and microbiologic features of a persistent outbreak of amikacin-resistant Serratia marcescens . Infect Control 1981; 2:367–372.Google Scholar
Okuda, T. Endo, N, Osada, Y, et al: Outbreak of nosocomial urinary trad infections caused by Serratia marcesceus . J Clin Microbiol 1984; 20:691–695.Google Scholar
II. Rutala, WA, Kennedy, VA. Loflin, HB, et al: Serratia marcesceus nosocomial infections of the urinary tract associated with urine measuring containers and urinometers. Am J Med 1981; 70:659–603.Google Scholar
Echols, RM, Palmer, DL, King, RM, et al: Multidrug-resistant Serratia marcesceus bacteriuria related to urologic instrumentation. South Med J 1984: 77:173–177.Google Scholar
Ewing, WH: Edwards and Ewing's Identification of Enterobacteriaceae, (4th ed), New York, Elsevier Science Publishing Co., 1986, pp 423–441.Google Scholar
Steers, EE, Foltz, EL, Graves, BS: An inocula replicating apparatus for routine testing of bacterial susceptibility to antibiotics. Antibiot Chemother 1959; 9:307–311.Google Scholar
Jones, RN, Barry, AL, Gavan, TL, et al: Susceptibility tests: Microdilution and macrodilution broth procedures, in Lennette, EH, Balows, A, Hausler, WJ Jr. Shadomy, HJ (eds): Manual of Clinical Microbiology, 4th ed. Washington DC, American Society for Microbiology. 1985, pp 972–977.Google Scholar
Ewing, WH, Johnson, JG, Davis, BR: The Occurrence of Serratia marcescens in Nosocomial Infections. Atlanta, US Department of Health, Education, and Welfare, US Public Health Service, Centers for Disease Control. 1962, pp 1–12.Google Scholar
1". Miller, GH, Sabatelli, FJ. Hare, RS, et al: Survey of aminoglycoside resistance patterns, in Developments in Industrial Microbiology, volume 21, Society for Industrial Microbiology, 1980, pp 91–104.Google Scholar
- Holmes, DS. Quigley, M: A rapid boiling method for the preparation of bacterial plasmids. Ann Biochem 1981; 114:193–197.Google Scholar
I1. Glevell, DB, Helinski, DR: Supercoiled circular DNA-protein complex in E coli: Purification and induced conversion to an open circular DNA form. Proc Nat Acad Sci USA 1969; 62:1159–1166.Google Scholar
Yang, RC, Liss, J, Wu, R: Elution of DNA from agarose gels afier electrophoresis. Methods Enzymol 1979; 68:176–182.Google Scholar
Maniatis, T, Fritsch, EF, Sambrook, J: Molecular Cloning; A Laboratory Manual. Cold Spring Harbor, New York, Cold Spring Harbor Laboratory, 1982. pp 254–255.Google Scholar
Ii. Southern, E: Detection of specific sequences among DNA fragments separated by gel electrophoresis. J Mol Biol 1975; 98:503–517.Google Scholar
Rigby, PWJ, Dieckmann, M, Rhodes, C, et al: Labeling DNA to a high specific activity in vitro by nick translation with DNA polymerase I. J Mol Biol 1977; 113:237–251.Google Scholar
Bialkowska-Hobrzanska, H: Detection of enterotoxigenic Escherichia coli by dot blot hybridization with biotinylaled DNA probes. J Clin Microbiol 1987; 25:338–343.Google Scholar
Schlesselman, JJ: Case-control Studies; Design. Conduct, Analysts. New York, Oxford University Press. 1982, pp 213–215.Google Scholar
Wong, ES, Hooten, TM: Guideline for prevention of catheter-associated urinary tract infections. Infect Control 1981; 2:126–130.Google Scholar
Acar, JF: Serratia marcescens infections. Infect Control 1986; 7:273–278.Google Scholar
Tompkins, LS. Plorde, JJ, Falkow, S: Molecular analysis of R-faetors from multiresistant nosocomial isolates. J Infect Dis 1980; 141:625–636.Google Scholar
Shlaes, DM, Currie, CA: Endemic gentamicin resistance R factors on a spinal cord injury unit. J Clin Microbiol 1983; 18:236–241.Google Scholar
Shlaes, DM, Currie-McCumber, C. Eanes, M, et al: Gentamicin-resistance plasmids in an intensive care unit. Infect Control 1986; 7:355–351.Google Scholar
26 Rubens, CE, Farrar, WE Jr. McGee, ZA. et al: Evolution of a plasmid mediating resistance to multiple antimicrobial agents during a prolonged epidemic of nosocomial infections. J Infect Dis 1981; 143:170–181.Google Scholar
“7. John, JR Jr, McNeill, WF: Characteristics of Serratia marcesceus containing a plasmid coding for gentamicin resistance in nosocmial infections. J Infect Dis 1981; 143:810–817.Google Scholar
Maki, DG, Hennekens, CG. Phillips, CW. et al: Nosocomial urinary tract infection with Serratia marcescens: An epidemiologic study. J Infect Dis 1973; 128:579–587.Google Scholar
Schaberg, DR, Weinstein, RA, Stamm, WE: Epidemics of nosocomial urinary tract infection caused by multiply resistant gram-negative bacilli: Epidemiology and control. J Infect Dis 1976; 133:363–366.Google Scholar
Shlaes, DM, Currie, CA, Rotter, G. et al: Epidemiology of gentamicin-resistant gram-negative bactillary colonization in a spinal cord injury unit. J Clin Microbiol 1983; 18:227–235.Google Scholar
Farmer, JJ III. Davis, BR. Hickman, FW: Detection of Serratia outbreaks in hospital. Lancet 1970; 2: 155–159.Google Scholar
Yu, VL: Serratia marcesceus. Historical perspective and clinical review. N Engl J Med 1979; 300:887–893.Google Scholar
Marrie, TJ, Noble, MA, Haldane, EV, et al: _Serratia marcesceus_—A marker for an infection control program. Infect Control 1982; 3:134–142.Google Scholar
Perryman, FA. Fluornov, DJ: Prevalence of gentamicin- and amikacin-resistant bacteria in sink drains. J Clin Microbiol 1980; 12:79–83.Google Scholar
Weinstein, RA, Kabins, SA: Strategies for prevention and control of multiple drug-resistant nocosomial infection. Am J Med 1981; 70:449–454.Google Scholar
Lewis, RI, Carrion, HM, Lockhart, JL, et at: Significance of asymptomatic bacteriuria in neurogenic bladder disease. Urology 1984; 23:343–347.Google Scholar
Maynard, FM. Diokno, AC: Urinary infection and complications during dean intermittent catheterization following spinal cord injury. J Urol 1984; 132:943–946.Google Scholar