Laboratory surveillance of Shiga toxin-producing Escherichia coli in South Australia and the Hunter Health Area, New South Wales, Australia

This report published in Communicable Diseases Intelligence Volume 28 Issue, Number 3, discusses the prevalence of Shiga toxin-producing Escherichia coli in Australia.

Page last updated: 30 October 2004

A print friendly PDF version is available from this Communicable Diseases Intelligence issue's table of contents.

Robyn Doyle,1 Kieda Watson,2 Leanne E Unicomb,3 Janice A Lanser,4 Rolf Wise,1 Rod Ratcliff,1 Barry Combs5, John Ferguson2

Abstract

To estimate the prevalence of shiga toxin producing Escherichia coli in Australia, bloody stool samples from two Australian locations were screened for the presence of shiga toxin genes, stx1 and stx2. Four of 126 (3.2%) and 139 of 5,829 (2.4%) patients from the two locations had a positive Polymerase Chain Reaction for shiga toxin genes. Commun Dis Intell 2004;28:390–391.

Shiga toxin producing Escherichia coli (STEC) is the commonest cause of post-diarrhoeal hemolytic uraemic syndrome (HUS) in industrialised countries including Australia.1 The majority of STEC infections are acquired by humans via the food chain, particularly from contaminated meat sources.2 In order to develop strategies to prevent acquisition of STEC, it is important to understand the prevalence of the organism in humans with diarrhoea.

This summary reports data on screening of stool samples for STEC toxin genes, stx1 and stx2, from two Australian locations, South Australia and the Hunter Health Area of New South Wales, between January 1999 and December 2002. The Institute of Medical and Veterinary Science (IMVS) in South Australia screened all stools, including those referred from diagnostic laboratories, with macroscopic evidence of blood, or from patients with a clinical history of bloody diarrhoea, or when a sample was accompanied by a request from a physician. This included screening stools from HUS cases. In the Hunter, screening was undertaken on stool samples submitted to the Hunter Area Pathology Service (HAPS), with profuse red blood cells, from which E. coli but no other bacterial diarrhoeal pathogen was detected. Stool samples from HUS cases were also screened.

All samples were screened for STEC toxin genes using multiplex real-time TaqManTM polymerase chain reaction (PCR) (Applied Biosystems). Controls used for each assay run included stx1 and stx2 positive E. coli O111, and O157 and an stx negative E. coli ATCC 25922 at HAPS, and stx1 and stx2 positive E. coli O157 and stx negative E. coli ATCC 25922 at IMVS.

During the study period, four of 126 patients from the Hunter Health Area were positive for STEC toxin genes (3.2%) of which two were positive for stx2, one for stx1 and one for both genes. Positives were detected in 1999 and 2002 only. In South Australia, 139 of 5,829 patients were positive for STEC toxin genes (2.4%), 42 were positive for stx1, 37 for stx2 and 60 were positive for both genes (Table). STEC positives were detected in each year of the study period.

Top of page

Table.   Summary of Shiga toxin producing Escherichia coli screening of stool samples from South Australia and from the Hunter Health Area of New South Wales, Australia, between 1999 and 2002

Location Patients tested* Number positive for stx1 and/or stx2 genes Percentage positive Number with HUS
South Australia
5,829
139
2.4
3§
Hunter
126
4
3.2
2

* Excludes repeat samples collected within 14 days.
† HUS: hemolytic uraemic syndrome.
‡ A further 2 Shiga toxin producing Escherichia coli cases were detected in 1999 by culture only.
§ There were three additional HUS cases in this period that were not positive for STEC.

The two cases of HUS positive for STEC reported in the Hunter Health Area included a 26-month-old male and a 62-year-old male, who was also diagnosed with Campylobacter. In South Australia, the three HUS patients positive for STEC comprised a 10-month-old male, a 2-year-old female, and a 21-year-old male. The HUS patients appeared to be sporadic cases as there was no observed link between them.

During the study period, South Australia and the Hunter using the same PCR method, found 2.4 to 3.2 per cent of bloody stools positive for STEC toxin genes, respectively, suggesting that other regions in Australia may have similar levels of STEC infection. These rates are in line with those detected in the United States of America, with studies reporting prevalence of 4.2 per cent (14/335)3 and 2.1 per cent (39/1,851)4 using ELISA toxin testing and PCR, respectively. In Thailand one per cent (2/211) of samples tested were positive for STEC by culture followed by PCR.5

Top of page

Acknowledgements

This work in the Hunter Health Area was funded by OzFoodNet, enhanced surveillance program of the Australian Government Department of Health and Ageing.

References

1. Elliott EJ, Robins-Browne RM, O'Loughlin EV, Bennett-Wood V, Bourke J, Henning P, et al. Nationwide study of haemolytic uraemic syndrome: clinical, microbiological, and epidemiological features. Arch Dis Child 2001;85(2):125–131.
2. Verweyen HM, Karch H, Brandis M, Zimmerhackl LB. Enterohemorrhagic Escherichia coli infections: following transmission routes. Pediatr Nephrol 2000;14(1):73–83.
3. Fey PD, Wickert RS, Rupp ME, Safranek TJ, Hinrichs SH. Prevalence of non-O157:H7 shiga toxin-producing Escherichia coli in diarrhoeal stool samples from Nebraska. Emerg Infect Dis 2000;6(5):530–533.
4. Klein EJ, Stapp JR, Clausen CR, Boster DR, Wells JG, Qin X, et al. Shiga toxin-producing Escherichia coli in children with diarrhoea: a prospective point-of-care study. J Pediatr 2002;141(2):172–177.
5. Leelaporn A, Phengmak M, Eampoklap B, Manatsathit S, Tritilanunt S, Siritantikorn S, et al. Shiga toxin- and enterotoxin-producing Escherichia coli isolated from subjects with bloody and non-bloody diarrhoea in Bangkok, Thailand. Diagn Microbiol Infect Dis 2003;46(3):173–180.

Top of page

Author affiliations

1. Infectious Diseases Laboratories, Institute of Medical and Veterinary Science, Adelaide, South Australia
2. Hunter Area Pathology Service, Newcastle, New South Wales
3. OzFoodNet, Hunter Population Health, Wallsend, New South Wales
4. Institute of Clinical Pathology and Medical Research, Westmead, New South Wales
5. OzFoodNet, South Australian Department of Health, Adelaide, South Australia

Corresponding author: Dr Barry Combs, OzFoodNet, Communicable Disease Control Branch, Department of Health, PO Box 6, Rundle Mall, Adelaide, SA 5000. Telephone: +61 8 8226 6318. Facsimile: +61 8 8226 7187 Email: barry.combs@health.sa.gov.au

This article was published in Communicable Diseases Intelligence Vol 28 No 3, September 2004.

Communicable Diseases Intelligence subscriptions

Sign-up to email updates: Subscribe Now

This issue - Vol 28 No 3, September 2004