sábado, 23 de septiembre de 2017

Notes from the Field: Travel-Associated Melioidosis and Resulting Laboratory Exposures — United States, 2016 | MMWR

Notes from the Field: Travel-Associated Melioidosis and Resulting Laboratory Exposures — United States, 2016 | MMWR

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MMWR Weekly
Vol. 66, No. 37
September 22, 2017





Notes from the Field: Travel-Associated Melioidosis and Resulting Laboratory Exposures — United States, 2016





Patrick K. Mitchell, ScD1,2; Colin Campbell, DVM3; Martha P. Montgomery, MD1,4; Julie Paoline, MA5; Christopher Wilbur, MD6; Leah Posivak-Khouly, MPH5; Kristin Garafalo, MPH3; Mindy Elrod7; Lindy Liu, MPH7; Andre Weltman, MD2 (View author affiliations)
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In mid-July 2016, a Pennsylvania resident aged 15 years who had recently returned from Thailand was treated by a pediatrician for sore throat, fever, and bilateral thigh abscesses at the sites of mosquito bites (Figure). She had traveled to northeast Thailand with nine other teens as part of an 18-day service-oriented trip run by an Ohio-based youth tour company that arranges travel to Thailand for approximately 500 persons annually. This trip included construction and agricultural activities and recreational mud exposures. The patient subsequently developed right inguinal lymphadenopathy and worsening abscesses, which prompted specimen collection for culture on August 25. This specimen was sent to a commercial laboratory in New Jersey, which identified Burkholderia pseudomallei, the causative organism of melioidosis, on August 30. The patient did not experience pneumonia or bacteremia, and recovered fully after 2 weeks of intensive therapy with parenteral ceftazidime and a 6-month outpatient course of eradication therapy with doxycycline.
Melioidosis has variable, nonspecific presentation, which can include cutaneous infection, pneumonia, bacteremia, septicemia, and other manifestations, after an incubation period of 1–21 days, although longer incubations of months or years have been reported (1,2). It is typically acquired from direct contact with soil or water contaminated with B. pseudomallei, which is highly endemic in northeast Thailand (2). Interviews with a tour company official revealed communication gaps regarding destination-specific health risks. With input from the Ohio and Pennsylvania Departments of Health, the tour company distributed a letter to participants and staff members who were on the patient’s trip, alerting them to melioidosis symptoms and exposure possibilities. No other trip participants responded to the letter to report symptoms. The tour company was advised to include CDC Yellow Book (3) resources in its predeparture materials for clients.
B. pseudomallei is not reportable in Pennsylvania, but is listed as a Tier 1 select agent, indicating its potential to pose a serious health threat (4). Although rare, laboratory acquisition of melioidosis through unknowing exposure to B. pseudomallei has been documented (4,5). Exposures for employees of the New Jersey commercial laboratory were categorized and managed according to published guidelines (4). Among 41 laboratory technologists assessed, serologic testing and symptom self-monitoring was recommended for two technologists who were exposed to aerosols while manipulating the culture outside of a biologic safety cabinet, and two who had predisposing medical conditions (diabetes [one] and long-term steroid use [one]) and were present in the laboratory during the aerosol-generating procedures. The two technologists handling the culture were also prescribed trimethoprim-sulfamethoxazole for antibiotic prophylaxis. One technologist developed fever, cough, and rash and was temporarily excluded from work. This was diagnosed as an adverse reaction to trimethoprim-sulfamethoxazole and resolved after switching to doxycycline. No melioidosis cases were identified among exposed laboratory technologists.
Because only zero to five cases of melioidosis are identified annually in the United States and the disease has nonspecific and possibly delayed symptoms, it might not initially be suspected as a diagnosis (1,4,6). When patient travel history is compatible with B. pseudomallei exposure, clinicians should have a higher index of suspicion and share this suspicion with laboratory personnel to reduce exposure risk. Persons on service-oriented trips might be at higher risk for acquiring melioidosis than a typical traveler because of the potential for quasi-occupational exposures such as construction and farm work. Travelers should be advised to seek information about the particular health risks associated with their destinations and planned activities, and should share this information with health care providers if symptoms develop. Travel organizers should also be informed of the health risks related to the destinations they serve and types of trips they offer.
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Conflict of Interest

No conflicts of interest were reported.
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Corresponding author: Patrick K. Mitchell, PMitchell3@cdc.gov, 717-787-3350.
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1Epidemic Intelligence Service, CDC; 2Pennsylvania Department of Health; 3New Jersey Department of Health; 4Ohio Department of Health; 5Montgomery County Health Department, Norristown, Pennsylvania; 6Pediatric Infectious Diseases, Children’s Hospital of Philadelphia, Philadelphia, Pennsylvania; 7Division Of High-Consequence Pathogens and Pathology, CDC.
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References

  1. Wiersinga WJ, Currie BJ, Peacock SJ. Melioidosis. N Engl J Med 2012;367:1035–44. CrossRef PubMed
  2. Dan M. Melioidosis in travelers: review of the literature. J Travel Med 2015;22:410–4. CrossRef PubMed
  3. CDC. CDC health information for international travel 2016. New York, New York: Oxford University Press; 2016.
  4. Peacock SJ, Schweizer HP, Dance DAB, et al. Management of accidental laboratory exposure to Burkholderia pseudomallei and B. mallei. Emerg Infect Dis 2008;14:e2. CrossRef PubMed
  5. Ashdown LR. Melioidosis and safety in the clinical laboratory. J Hosp Infect 1992;21:301–6. CrossRef PubMed
  6. CDC. Melioidosis. Atlanta, GA: US Department of Health and Human Services, CDC; 2012. https://www.cdc.gov/melioidosis/index.html
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Return to your place in the textFIGUREThigh abscesses at the sites of mosquito bites in a Pennsylvania resident aged 15 years who had recently returned from Thailand, July 2016
The figure above is a photograph showing the colonial morphology displayed by Gram-negative Burkholderia pseudomallei bacteria.

Photo/patient (used with permission, name withheld for confidentiality)
* Photo taken 7 weeks after onset.
The photograph above shows thigh abscesses at the sites of mosquito bites in a Pennsylvania resident aged 15 years who had recently returned from Thailand in July 2016.
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Suggested citation for this article: Mitchell PK, Campbell C, Montgomery MP, et al. Notes from the Field: Travel-Associated Melioidosis and Resulting Laboratory Exposures — United States, 2016. MMWR Morb Mortal Wkly Rep 2017;66:1001–1002. DOI: http://dx.doi.org/10.15585/mmwr.mm6637a8.

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