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Thursday, March 9, 2017

CDC Report - 2016 Salmonella Outbreak in Children Associated with Playground Sand

A 2016 Salmonella outbreak in Madrid, Spain caused illness in 24 preschool students, aged 3 to 5 years old.  It was concluded that the source of the Salmonella was the sand in the playground.  The Salmonella likely got there through bird droppings.   

While these types of issues may be difficult to prevent, there are some preventive measures that can be taken.  Keeping children from putting their hands in their mouth when playing in the dirt. (Good luck with that).  Having kids wash their hands after playing.  Recognizing that bird droppings are a potential source of Salmonella, so placing sandboxes in areas away from trees and other overhead structures where birds may land (and poop).  Sure, trees provide shade, and in Spain, it is probably better to be in the shade.  However, structures such as large umbrellas may be used.  Umbrellas or other movable structures can be beneficial in allowing the sand to dry.

CDC - MMWR
https://www.cdc.gov/mmwr/volumes/66/wr/mm6609a3.htm?s_cid=mm6609a3_e
Notes from the Field: An Outbreak of Salmonella Typhimurium Associated with Playground Sand in a Preschool Setting — Madrid, Spain, September–October 2016
Weekly / March 10, 2017 / 66(9);256–257Carmen Olmedo Lucerón1; Ana Pérez Meixeira1; Isabel Abad Sanz1; Victoria Cid Deleyto1; Silvia Herrera León2; Leonor Gutierrez Ruiz1 (View author affiliations)View suggested citation
On September 23, 2016, a gastroenteritis outbreak among young children in a preschool and primary education center located in Getafe, a city in the southern part of the Madrid metropolitan area, was reported to the Community of Madrid Public Health Services. The first five cases occurred on September 14 and affected children aged 3–5 years, who developed symptoms after attending school. An epidemiologic investigation was initiated and included clinical investigation of the identified cases, an active search for additional cases based on school absences, and an environmental assessment.

Three hundred children aged 3–5 years attend the preschool, with classes of approximately 25 students, and the preschool area is separated from the primary school area. A total of 24 cases of gastroenteritis (defined as at least one of four signs or symptoms [fever, diarrhea, abdominal pain, and vomiting] and microbiological confirmation or epidemiologic link to a confirmed case) were identified with symptom onset from September 12 to October 19, 2016 (Figure). Three children were hospitalized and fully recovered. Among the 24 patients, six (25%) were aged 3 years, five (21%) were aged 4 years, and 13 (54%) were aged 5 years. Fifteen cases (63%) occurred in boys. Eighteen (75%) of the affected children used the school meal service and six (25%) did not. Stool specimens were obtained from 17 (71%) affected children; all were positive for non-Typhi Salmonella (confirmed cases). Three confirmed cases occurred among six children who did not use the school meal service and 14 occurred among 18 children who did use the meal service. Seven other patients had an epidemiologic link to a laboratory-confirmed case of Salmonella and were classified as probable cases. The attack rate for probable and confirmed cases was 8% (24/300). The Salmonella isolates were sent to the National Center of Microbiology Reference Laboratory, Carlos III Institute of Health (National Laboratory) for characterization. All isolates were serotyped and found to be Salmonella serotype Typhimurium 4,12:i:1,2 (var. Copenhagen). This serotype is widely distributed and associated with foodborne illness, and has been shown to carry a variety of antibiotic resistance genes (1).

On the day the outbreak was reported, the facilities were inspected, and meal service personnel were interviewed. Samples of potable water and available food prepared during the 2 days before first symptoms began were collected and analyzed; no pathogens were detected. The epidemic curve suggested an ongoing common source (Figure). The only recognized common exposures were attending the early childhood education section of the school, which included children aged 3–5 years, and use of the school playground. No animals were kept at the school. School management hypothesized that the school’s playground, which contains all of the school’s playground equipment, might have become contaminated with animal feces. This area is quite large and covered with loose sand, and contains numerous trees, in which birds roost. On October 10 and November 3, samples of sand from five playground locations were collected for analysis. One sample collected on each date grew Salmonella of the same serotype as that identified from the infected children. Both positive samples corresponded to the area of the playground containing swings, seesaws, and slides.

The phagetype (195), the pulsetype (XbaI.0145), and the resistance to tetracycline identified in all isolates is uncommon in humans and was identified in only 4.2% of all isolates typed at the National Laboratory during 2016. This strain has been identified at the National Laboratory from wild and domestic birds (personal communication, S. Herrera, National Laboratory, January 2017). The temporal distribution and microbiologic results suggest that the most likely cause was contact with playground sand contaminated with feces from birds that usually nest in trees above the playground.

Cleaning, sanitation, and structural measures were recommended, and consisted of closing the contaminated areas and renovating the entire playground area. No new cases have been reported since these actions were taken. Long-term control will require a comprehensive strategy that includes environmental interventions and bird population control.

The findings in this report are subject to at least two limitations. First, person-to-person transmission might have occurred. Second, there might have been an underestimation of cases, which can occur in any outbreak investigation. However, these findings support other studies that have identified playground sand as an animal-human interface that facilitates transmission of Salmonella (2,3), particularly among children, and highlight the necessity for enforcement of guidelines to prevent contamination in playground sand and infections among young children (4).


Corresponding author: Carmen Olmedo, maria.olmedo@salud.madrid.org, 34-91-696-41-66.
1Area 10 Public Health, General Directorate of Public Health, Health Authority of the Autonomous Community of Madrid, Spain; 2National Center of Microbiology, Carlos III Institute of Health, Madrid, Spain.
References
  1. Frech G, Kehrenberg C, Schwarz S. Resistance phenotypes and genotypes of multiresistant Salmonella enterica subsp. enterica serovar Typhimurium var. Copenhagen isolates from animal sources. J Antimicrob Chemother 2003;51:180–2. CrossRef PubMed
  2. Doorduyn Y, Van Den Brandhof WE, Van Duynhoven YT, Wannet WJB, Van Pelt W. Risk factors for Salmonella Enteritidis and Typhimurium (DT104 and non-DT104) infections in The Netherlands: predominant roles for raw eggs in Enteritidis and sandboxes in Typhimurium infections. Epidemiol Infect 2006;134:617–26. CrossRef PubMed
  3. Staff M, Musto J, Hogg G, Janssen M, Rose K. Salmonellosis outbreak traced to playground sand, Australia, 2007–2009. Emerg Infect Dis 2012;18:1159–62. CrossRef PubMed
  4. American Academy of Pediatrics; American Public Health Association; National Resource Center for Health and Safety in Child Care and Early Education. Caring for our children: national health and safety performance standards; guidelines for early care and education programs. 3rd ed. Elk Grove Village, IL: American Academy of Pediatrics; Washington, DC: American Public Health Association; Aurora, CO: National Resource Center for Health and Safety in Child Care and Early Education; 2015. http://cfoc.nrckids.org/WebFiles/CFOC3_updated_final.pdf

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