[Emerging Infectious Diseases * Volume 3 * Number 3 * July-September 1997]

[Dispatches]

Emerging Quinolone-Resistant Salmonella in the United States

Hallgeir Herikstad,* Peggy Hayes,* Mohamed Mokhtar,* Margaret L. Fracaro,
E. John Threlfall,‡ and Frederick J. Angulo*
*Centers for Disease Control and Prevention, Atlanta, Georgia, USA; The
Presbyterian Hospital in the City of New York, New York, USA; ‡Public
Health Laboratory Service, Central Public Health Laboratory, London, United
Kingdom
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      We conducted a national survey of antimicrobial resistance in
      human clinical isolates of Salmonella between July 1, 1994, and
      June 30, 1995. Every tenth nontyphoidal Salmonella isolate
      received at state public health laboratories in the United
      States during this period was tested for resistance to 12
      antimicrobial agents, including two quinolones, nalidixic acid,
      and ciprofloxacin. Emerging quinolone resistance was detected;
      of 4,008 isolates tested, 21 (0.5%) were resistant to nalidixic
      acid, and one (0.02%) was resistant to ciprofloxacin. Continued
      surveillance for quinolone-resistant Salmonella is necessary,
      particularly after the recent approval of a fluoroquinolone for
      use in animals intended for food in the United States.

Each year, an estimated 2 to 4 million human Salmonella infections occur in
the United States (1,2). Although most of these infections cause a mild,
self-limiting illness, serious sequelae, including invasive infections and
death can occur (1,2). Antimicrobial therapy is not recommended for routine
treatment of salmonellosis; however, appropriate antimicrobial therapy can
be life-saving for patients with invasive disease. Since antimicrobial
agents are essential for treating some Salmonella infections, isolates from
such infections should be monitored for antimicrobial resistance,
particularly resistance to fluoroquinolones (e.g., ciprofloxacin).
Fluoroquinolones have been in human clinical use in the United States since
the mid-1980s and are recommended for treating invasive Salmonella
infections in adults (3,4). Resistance to nalidixic acid—the prototypic
quinolone—has been found in some instances to precede resistance to
fluoroquinolones (5).

To determine the prevalence of antimicrobial resistance among Salmonella
isolates in the United States, we conducted a study between July 1, 1994,
and June 30, 1995. All state public health laboratories sent every tenth
nontyphoidal Salmonella isolate they received to the Centers for Disease
Control and Prevention for antimicrobial testing. Isolates were tested by
the disk diffusion method for resistance to 12 antimicrobial agents,
including two quinolones, nalidixic acid, and ciprofloxacin. For
ciprofloxacin-resistant isolates, the minimum inhibitory concentration for
ciprofloxacin was also determined.

Antimicrobial resistance patterns were determined for 4,008 Salmonella
isolates received from 51 states and territories. Emerging quinolone
resistance was detected; 21 isolates (0.5%) were resistant to nalidixic
acid, and one (0.02%) was resistant to ciprofloxacin. The 21 nalidixic
acid-resistant strains included 13 different serotypes from 15 states. The
most common serotypes were Typhimurium (5 isolates), Enteriditis (3), and
Virchow (2).

The ciprofloxacin-resistant strain, Salmonella serotype Schwarzengrund, was
isolated in January 1995 from the stool of a woman referred to a hospital
in the United States for treatment of complications caused by factor VIII
deficiency. She had been hospitalized in the Philippines in September 1994
for "amoebic colitis," which was treated with antimicrobial agents; the
patient could not recall the names of the agents. At that time, she also
received a blood transfusion for severe anemia. Examination in the U.S.
hospital showed a factor VIII level of 5% with a factor VIII inhibitor
titer of 20 Bethesda units. The patient was afebrile and did not have
diarrhea or other gastrointestinal symptoms, however, blood was observed in
her stool on the second day of hospitalization. Colonoscopy showed
angiodysplasia of the right colon. She was not treated with antimicrobial
agents and was discharged from the hospital after 15 days.

To our knowledge, this is only the second reported isolation of
fluoroquinolone-resistant Salmonella in the United States; the first
reported isolate was from a patient who had been treated with three courses
of ciprofloxacin for 8 weeks (6). The resistant pathogen found in our study
was probably acquired in the Philippines, where quinolones have been
available without prescription at least since 1987 (7) and where, according
to a 1992 survey, 2.5% of nontyphoidal Salmonella isolates were resistant
to fluoroquinolones (5). Fluoroquinolone-resistant Salmonella have also
been reported in Asia and Europe (5,8,9). Prior hospitalization, prior
antimicrobial treatment (6), and travel outside the United States have been
shown to increase the risk of being infected with Salmonella resistant to
antimicrobial agents (10).

Compared with the previous national study, conducted in 1989-1990, which
found one in 758 (0.1%) Salmonella isolates resistant to nalidixic acid, we
found a fivefold increase in the prevalence of nalidixic acid resistance.
Although increasing, the low prevalence of quinolone resistance in
Salmonella in the United States and the lack of domestically acquired
fluoroquinolone-resistant strains, is in sharp contrast to the situation in
England and Wales, where increasing prevalence has been reported (8),
particularly among isolates of S. Typhimurium, S. Virchow, and S. Hadar
(E.J. Threlfall, L.R. Ward, J.A. Skinner, B. Rowe, unpub. obs.). Among one
particular Salmonella strain, Salmonella Typhimurium Definitive Type 104
(DT 104), which was the second most frequently isolated Salmonella strain
from humans in the United Kingdom in 1995, the incidence of fluoroquinolone
resistance has increased from 0% in 1993 to 6% in 1995 (11), and has more
than doubled in 1996 (Public Health Laboratory System, unpub. data). An
important factor contributing to this increase may be the licensing in 1993
of the fluoroquinolone antimicrobial enrofloxacin for general veterinary
use in that country (11). Although the only fluoroquinolone-resistant
Salmonella isolate identified in our study was apparently acquired outside,
DT 104 has emerged widely in the United States 12). The recent approval of
a fluoroquinolone for use in animals intended for food in the United States
(sarafloxacine in poultry) (13) may contribute to the emergence and
circulation of fluoroquinolone-resistant strains in a way analogous to that
already observed in the United Kingdom. Since fluoroquinolones are
important in treating invasive Salmonella infections and most DT 104
isolates are already resistant to ampicillin, chlorampenicol, streptomycin,
sulphonamides, and tetracyclines, continued monitoring of salmonellas for
resistance to fluoroquinolone antimicrobial drugs is warranted.

References

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     epidemiologic perspective. Science 1986;234:964-9.
  2. Tauxe RV. Salmonella: a postmodern pathogen. Journal of Food
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  3. Wilcox MH, Spencer RC. Quinolones and salmonella gastroenteritis. J
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  4. Conte JE. Manual of antibiotics and infectious diseases. Baltimore:
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  5. Turnidge J. Epidemiology of quinolone resistance. Eastern hemisphere.
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  6. Cherubin CE, Eng RHK. Quinolones for the treatment of infections due
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  7. Lansang MA, Lucas-Aquino R, Tupasi TE, Mina VS, Salazar LS, Juban N,
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  9. Hof H, Ehrhard I, Tschape H. Presence of quinolone resistance in a
     strain of Salmonella typhimurium. Eur J Clin Microbiol Infect Dis
     1991;10:747-9.
 10. Lee LA, Puhr ND, Maloney EK, Bean NH, Tauxe RV. Increase in
     antimicrobial-resistant Salmonella infections in the United States,
     1989-1990. J Infect Dis 1994;170:128-34.
 11. Threlfall EJ, Frost JA, Ward LR, Rowe B. Increasing spectrum of
     resistance in multiresistant Salmonella typhimurium. Lancet
     1996;347:1053-4.
 12. Centers for Disease Control and Prevention. Multidrug-resistant
     Salmonella serotype Typhimurium - United States, 1996. MMWR Morb
     Mortal Wkly Rep 1997; 46:308-10.
 13. Centers for Disease Control and Prevention. Establishment of a
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Emerging Infectious Diseases
National Center for Infectious Diseases
Centers for Disease Control and Prevention
Atlanta, GA

URL: ftp://ftp.cdc.gov/pub/EID/vol3no3/ascii/hayes.txt