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RESEARCH ARTICLE

Salmonella: pits and pets

Therese F. Carroll A , Michael Staff B and Martyn D. Kirk C
+ Author Affiliations
- Author Affiliations

A NSW Public Health Officer Training Program, NSW Department of Health

B Public Health Unit, Northern Sydney Central Coast Area Health Service

C Department of Health and Ageing

NSW Public Health Bulletin 20(12) 197-198 https://doi.org/10.1071/NB09014
Published: 4 February 2010

What is salmonellosis?

Salmonellosis is primarily a foodborne disease in humans. It is responsible for the greatest number of enteric disease notifications in New South Wales (NSW). In 2007, a total of 4000 cases of salmonellosis were notified in NSW. This may, however, represent only one-eighth of salmonellosis cases in the community because few people present for treatment and testing.1

Salmonella is a bacterial pathogen found in the intestinal tract of some animals. After ingestion of contaminated food or water, Salmonella colonises and invades the mucosal layer of the small and large intestine. This invasion causes the release of adenyl cyclase, creating an inflammatory response and production of the fluid that leads to diarrhoea. Sometimes the bacteria enters the bloodstream, leading to systemic illness.2


Clinical features

The incubation period for salmonellosis in humans ranges from 6 to 72 hours (although it is usually 12–36 hours). Symptoms include diarrhoea, abdominal pain, fever, headache and sometimes vomiting and bloody diarrhoea. The duration of illness is most often 4–7 days, although symptoms may persist for much longer. Treatment is usually supportive only; most people will recover with rest and fluids. Antibiotics are not usually recommended because they may increase the duration of illness.3


Diagnosis

Salmonella infections can only be confirmed by laboratory testing of a submitted specimen (usually a stool). The laboratory isolate Salmonella enterica is then separated into one of over 2000 serotypes (such as S. Typhimurium or S. Infantis).4 Further subtyping of some common Salmonella serotypes such as S. Typhimurium is performed to improve discrimination. Methods used for subtyping in NSW are phage typing and multi-locus tandem-repeat variant analysis.


Risk factors

The main risk factor for developing salmonellosis is eating raw or undercooked food such as poultry, beef, lamb, pork and eggs. It can also be spread from person-to-person or through contact with a contaminated animal or environment. Anyone is at risk of being infected with Salmonella; however, elderly people, children and immunocompromised individuals are at greater risk of developing more serious illness.5


Prevention

Salmonella contamination of food can be prevented by the following measures:

  • minimising the potential for contamination during food production and transportation (e.g. ensuring animal feeds, irrigation water and storage areas do not become contaminated)

  • keeping hot foods hot (≥60°C) and cold foods cold (≤5°C)

  • handling and storing raw foods and ready-to-eat foods separately to prevent cross-contamination

  • thoroughly cooking meals

  • washing hands regularly with soap and water during food preparation and after activities like playing outdoors, touching animals and going to the toilet.


Public health response

Laboratories are required to notify local public health units whenever Salmonella has been isolated from a human clinical specimen. Public health units investigate clusters of people diagnosed with the same strain to identify common links. Where links are identified, the NSW Food Authority conducts an environmental investigation (including inspection of the food preparation area and source of ingredients) and applies control measures. Investigations help prevent further disease and inform public heath policy to prevent further outbreaks.


Environmental Salmonella infection

While food is the most common source of Salmonella infection, contact with Salmonella bacteria in the environment is thought to be responsible for a small proportion of cases.6 Transmission may occur when people come into contact with a contaminated environment or an infected animal. Some Salmonella serotypes are more commonly found in the environment and in distinct geographical areas.

While rare in other Australian states, Salmonella Mississippi is thought to be endemic in Tasmanian wildlife. Human infections are associated with drinking tank water and contact with birds and animals.7 Infections are also thought to be associated with child hand behaviours, such as lack of hand washing before eating and finger sucking.7

The Northern Territory (NT) has the highest rate of Salmonella infection in Australia. A recent case control study found various Salmonella strains in around 20% of all household environment samples in the state, with little difference between cases and controls. All turtle tanks and a large proportion of frog faeces, vacuum dust and backyard soil tested positive for Salmonella (S. Williams, OzFoodNet, 24 March 2009, pers. comm.). This high prevalence of Salmonella in households and animals in the NT may indicate that it is ubiquitous in tropical environments.

Data collected by OzFoodNet – the national foodborne disease surveillance network – reports that there were three Salmonella outbreaks linked to an environmental source between 2001 and 2007. Two of these outbreaks were associated with children at child-care centres following chick hatching programs. The other, a rare strain of antibiotic-resistant Salmonella Paratyphi B biovar Java associated with tropical fish tanks, occurred across Australia.8

In 2008, an outbreak of salmonellosis occurred in the northern Sydney area of NSW, mostly affecting children under the age of 5. Epidemiological investigation linked the outbreak to two public playgrounds in the area. Environmental investigation found the sand in the playgrounds positive for Salmonella Paratyphi B biovar Java. In collaboration with the local council, the playgrounds were closed and the sand was replaced. The source of the contamination is still under investigation.

While the source of Salmonella infection is usually contaminated food, it is important to consider contaminated environments or infected animals as potential sources when investigating outbreaks, particularly if the cases are mainly among young children.



References


[1] Hall G,  Yohannes K,  Raupach J,  Becker N,  Kirk M. Estimating community incidence of Salmonella, Campylobacter, and Shiga toxin-producing Escherichia coli infections, Australia. Emerg Infect Dis 2008; 14(10): 1601–9.
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[2] Tauxe RV, Pavia AT. Salmonellosis: nontyphoidal, 613–630. In: Evans AS, Brachman PS, editors. Bacterial infections of humans: epidemiology and control. 3rd ed. New York: Plenum Medical Book Co; 1998.

[3] Thielman NM,  Guerrant RL. Acute infectious diarrhea. N Engl J Med 2004; 350(1): 38–47.
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[4] Brenner FW,  Villar RG,  Angulo FJ,  Tauxe R,  Swaminathan B. Salmonella nomenclature. J Clin Microbiol 2000; 38(7): 2465–7.
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[5] Heyman DL, editor. Control of Communicable Diseases Manual. 19th ed. Washington: American Public Health Association; 2008.

[6] Hall G, Kirk MD, Becker N, Gregory JE, Unicomb L, Millard G et al and OzFoodNet Working Group. Estimating foodborne gastroenteritis, Australia. Emerg Infect Dis 2005; 11(8): 1257–64.

[7] Ashbolt R,  Kirk MD. Salmonella Mississippi infections in Tasmania: the role of native Australian animals and untreated drinking water. Epidemiol Infect 2006; 134 1257–65.
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[8] Musto J,  Kirk M,  Lightfoot D,  Combs B,  Mwanri L. Multidrug resistant Salmonella Java infections acquired from tropical fish aquariums, Australia, 2003–04. Commun Dis Intell 2006; 30(2): 222–7.
PubMed |