OzFoodNet quarterly report, 1 January to 31 March 2009

During the first quarter of 2009, OzFoodNet sites reported 322 outbreaks of enteric illness, including those transmitted by contaminated food. Outbreaks of gastroenteritis are often not reported to health agencies or the reports may be delayed, meaning that these figures under-represent the true burden of enteric illness.

Page last updated: 18 September 2009

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The OzFoodNet Working Group

Introduction

The Australian Government Department of Health and Ageing established the OzFoodNet network in 2000 to collaborate nationally to investigate foodborne disease. OzFoodNet conducts studies on the burden of illness and coordinates national investigations into outbreaks of foodborne disease. This quarterly report documents investigations of outbreaks of gastrointestinal illness and clusters of disease potentially related to food occurring in Australia from 1 January to 31 March 2009.

Data were received from OzFoodNet epidemiologists in all Australian states and territories. The data in this report are provisional and subject to change, as the results of outbreak investigations can take months to finalise.

During the first quarter of 2009, OzFoodNet sites reported 322 outbreaks of enteric illness, including those transmitted by contaminated food. Outbreaks of gastroenteritis are often not reported to health agencies or the reports may be delayed, meaning that these figures under-represent the true burden of enteric illness. In total, these outbreaks affected 4,520 people, of whom 158 were hospitalised. There were 10 deaths reported during these outbreaks. The majority (65%, n=209) of outbreaks were due to person-to-person transmission (Table 1).

Table 1: Mode of transmission for outbreaks of gastrointestinal illness, OzFoodNet sites, 1 January to 31 March 2009

Transmission mode
Number of outbreaks Percentage of total
Foodborne
43
14
Person-to-person
209
65
Recreational water
9
3
Unknown – Salmonella cluster
4
1
Unknown – other pathogen cluster
10
3
Unknown
47
15
Total
322
100

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Foodborne disease outbreaks

There were 43 outbreaks during this quarter where consumption of contaminated food was suspected or confirmed as the primary mode of transmission (Table 2). These outbreaks affected 495 people and resulted in 70 hospitalisations. There were no reported deaths during these outbreaks. This compares with 31 foodborne outbreaks for the 1st quarter of 2008 and 29 outbreaks for the 4th quarter of 2008.

Table 2: Outbreaks of foodborne disease reported by OzFoodNet sites,* 1 January to 31 March 2009 (n=43)

State or territory
Month of outbreak
Setting prepared
Agent
Number affected Hospitalised Evidence
Responsible vehicle
ACT February Private residence Histamine poisoning
2
1
D
Tuna steak
February Restaurant S. Typhimurium 170
20
0
A
Tiramisu dessert
March Private residence S. Typhimurium 170
5
0
D
Zucchini bake
NSW January Aged care facility S. Typhimurium 170
4
0
D
Unknown
January Bakery S. Typhimurium 170
9
1
D
Chocolate, custard and cream cakes
January Institution – other S. Typhimurium 170
40
5
A
Hollandaise sauce
January National franchised fast food S. Typhimurium 170
3
1
D
Unknown
January Private residence S. Typhimurium 170
68
14
AM
Home made raw egg mayonnaise
January Private residence S. Typhimurium 170
4
1
D
Unknown
January Restaurant Unknown
2
0
D
Unknown
January Restaurant S. Chester
13
2
AM
Chilli sauce
January Restaurant Histamine poisoning
2
1
D
Tinned anchovies imported from Morocco
January Takeaway S. Typhimurium 170
2
1
D
Suspected chicken salad roll with homemade mayonnaise
February Aged care facility C. perfringens
25
0
D
Suspected vegetable gravy
February Takeaway Unknown
6
6
D
Unknown
February Restaurant Unknown
5
0
D
Unknown
February Takeaway S. Typhimurium
3
1
D
Unknown
February School S. Typhimurium 170
37
0
D
Unknown
March Aged care facility S. Typhimurium 170
7
2
D
Unknown
March Commercial caterer S. Montevideo
10
2
D
Catered Indonesian foods
March Restaurant Unknown
10
0
D
Unknown
March Restaurant S. Typhimurium 170
2
1
D
Fijian chicken
March Restaurant S. Typhimurium 170
33
13
AM
Fried icecream
March Restaurant S. Virchow
3
1
D
Unknown
March Restaurant Campylobacter
4
0
D
Suspected hickory steak with chips and salad
NT March Private residence S. Typhimurium U302
2
0
D
Suspected tiramisu
Qld February Aged care facility S. Typhimurium
3
Unknown
D
Unknown
February Restaurant Unknown
6
0
D
Unknown
February Commercial caterer Norovirus
20
1
A
Unknown
February Primary produce Ciguatera fish poisoning
3
2
D
Spanish mackerel
January Aged care facility S. Typhimurium 44
20
4
AM
Suspected vitamised foods and scrambled eggs
January Aged care facility S. Typhimurium 135a
3
0
D
Unknown
January Private residence Norovirus
10
1
D
Unknown
Vic February Commercial caterer S. Typhimurium 170
4
1
D
Unknown
February Restaurant Unknown
10
0
D
Suspected stews and casseroles
February Restaurant S. Typhimurium 197
2
2
D
Unknown
March Aged care facility C. perfringens
22
0
D
Suspected vitamised meals
March Camp Unknown
13
0
D
Unknown
March Child care centre S. Typhimurium 170
18
1
D
Unknown
March Private residence S. Typhimurium 44
7
1
D
Unknown
WA February Restaurant S. Saintpaul
7
1
M
Fried icecream
February Aged care facility Unknown
16
0
D
Unknown
March Restaurant S. Singapore
10
3
D
Unknown

* No foodborne outbreaks were reported by Tasmania or South Australia during the quarter.

A Analytical epidemiological association between illness and one or more foods.

D Descriptive evidence implicating the suspected vehicle or suggesting foodborne transmission.

M Microbiological confirmation of agent in the suspected vehicle and cases.

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Salmonella was responsible for 27 outbreaks during this quarter, with S. Typhimurium being the most common serotype (79%, n=22). There were 15 outbreaks due to S. Typhimurium phage type 170, two due to S. Typhimurium 44 and one each due to S. Typhimurium 135a, U302 and 197. There were 2 outbreaks of S. Typhimurium where phage typing was not reported. There was 1 outbreak each due to S. Montevideo, S. Chester, S. Saintpaul, S. Singapore and S. Virchow.

Of the remaining 16 outbreaks, five were due to foodborne toxins, including 2 Clostridium perfringens outbreaks, 2 outbreaks of fish-associated histamine poisoning and 1 ciguatera fish poisoning outbreak. There were 2 outbreaks due to norovirus and 1 outbreak due to Campylobacter infection. The remaining 8 outbreaks were of unknown aetiology.

Fifteen outbreaks (35%) reported in this quarter were associated with food prepared in restaurants, 8 (19%) associated with aged care facilities, 6 (14%) private residences, 4 (9%) commercial caterers, and 3 (7%) takeaway premises. Individual outbreaks were associated with food prepared at a bakery, camp, from primary produce, childcare centre, other institution, nationally franchised fast food restaurant, and a school.

To investigate these outbreaks, sites conducted 5 cohort studies, 2 case control studies, and collected descriptive case series data for 36 investigations. As evidence for the implicated vehicle, investigators collected microbiological evidence in 1 outbreak, analytical epidemiological evidence in 3 outbreaks, and both analytical epidemiological and microbiological evidence in 4 outbreaks. Descriptive evidence only was obtained in 36 outbreaks.

The following jurisdictional summaries describe key outbreaks and public health actions that occurred in this quarter. Tasmania and South Australia did not report any foodborne outbreaks during this quarter.

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Australian Capital Territory

The Australian Capital Territory reported 4 outbreaks of foodborne illness during the quarter, three of which were due to Salmonella and one due to histamine poisoning.

Twenty people became ill following meals at a restaurant and S. Typhimurium 170 was isolated from stool specimens of 8 cases. A case control study showed that illness was associated with eating dessert containing raw eggs. Environmental investigation did not identify any positive foods or environmental samples. Traceback identified an egg producer/supplier in the Australian Capital Territory, although the same serotype and phage type of Salmonella was not isolated. In the 2nd outbreak, 6 people in a single family became ill, with 75% (3/4) of children confirmed with S. Typhimurium 170 infection. No source was identified for the cluster. The 3rd outbreak affected a family of five infected with S. Montevideo attending a birthday party in New South Wales (reported in New South Wales report).

An outbreak of histamine poisoning affected 2 people after eating tuna steaks purchased from an Australian Capital Territory fishmonger. Traceback identified a Queensland supplier, which was referred to Queensland Health.

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New South Wales

New South Wales reported 22 foodborne or suspected foodborne disease outbreaks in the 1st quarter of 2009, with 13 of these being due to Salmonella. Ten of these outbreaks were due to S. Typhimurium 170 with closely related multi-locus variable tandem repeat analysis (MLVA) profiles, including:

  • 11% (33/308) of customers eating at a Japanese teppanyaki restaurant where people became ill from eating fried icecream (RR: 257.88, 95% CI: 36.39–1827.54). S. Typhimurium 170 MLVA type 3-9-7-12-523 was cultured from 12 cases with a matching strain cultured from samples of fried icecream, raw beef and a dish cloth from the restaurant.
  • 50% (2/4) of Spanish restaurant customers where people were infected with S. Typhimurium 170 (MLVA 3-10-7-9-523). No food samples were tested and the source of the Salmonella was never identified.
  • 27% (4/15) of aged care facility residents infected with S. Typhimurium 170 (MLVA 3-9-7-12-523); the source was never identified.
  • 60% (3/5) of children in a single household infected with S. Typhimurium 170 (MLVA 3-9-7-13-523), which was suspected to be due to bacon and beef burger meals at a franchise. No source was identified for this outbreak.
  • 57% (34/59) of female boarders and 38% (3/8) of staff of a school infected with S. Typhimurium 170 (MLVA type 3-9-8-12-523). No source was identified, despite intensive epidemiological and environmental investigations.
  • 40% (40/100) of people living in a retirement village infected with S. Typhimurium 170 (MLVA type 3-9-8-12-523), which was associated with consumption of Hollandaise sauce prepared with raw eggs (RR: 2.0, 95% CI: 0.6-7.4).
  • illness amongst a group of approximately 120 people attending a barbecue at a bowling club who were infected with S. Typhimurium 170 (MLVA type 3-9-8-12-523). In a cohort study, 82% (68/83) of people were ill with gastroenteritis, which was associated with consumption of lettuce (RR=1.4 95%CI 1.0-2.0) and Russian salad (RR=1.8 95%CI 1.2-2.9). The Russian salad was prepared with homemade raw egg mayonnaise, which was positive for the same strain of S. Typhimurium 170 as that infecting patients.
  • 2 people infected with S. Typhimurium 170 (MLVA type 3-9-8-12-523) after eating chicken salad with mayonnaise from a café; a specific source wasn't identified.
  • 4% (7/162) of residents at an aged care facility infected with S. Typhimurium 170 (MLVA type 3-9-8-12-523), with 2 residents hospitalised. All food samples and environmental swabs were negative for Salmonella and no source was identified.
  • 5 people from 2 families sharing a barbecue were infected with S. Typhimurium 170 (MLVA type 3-15-16-14-523). No source of the outbreak was identified.

New South Wales also reported 3 outbreaks due to other serotypes of Salmonella. Fifty per cent (10/20) of people attending a birthday party developed illness due to S. Montevideo. A family from the Australian Capital Territory was also affected in this outbreak. Indonesian food, including chicken skewers, was served by a caterer as well as a home-made birthday cake and no source was identified. In another outbreak, 14 people from 6 groups were infected with S. Chester on 3 consecutive days after eating chilli sauce prepared at a restaurant. Two food handlers who prepared the chilli sauce were asymptomatically infected with S. Chester and were excluded from work. Chilli sauce and raw chillies were positive for S. Chester, although it was not possible to trace the source of chillies. In the 3rd outbreak, three of 4 people from different households developed gastroenteritis after eating chilli crab in a Chinese restaurant; one had S. Virchow isolated from their stool. Foods were negative for Salmonella and no source was identified.

An outbreak of histamine poisoning affected two out of 8 people after eating Nicoise salad with tinned anchovies and tuna. Elevated histamine (360 mg/kg) was detected in cans of anchovies (imported from Morocco) at the restaurant.

Seventeen per cent (25/146) of residents of an aged care facility were ill with Clostridium perfringens intoxication, with enterotoxin A detected in 5 stool samples. The New South Wales Food Authority sampled vegetable gravy that had been inadequately stored, which contained moderate levels of both C. perfringens and Bacillus cereus.

An outbreak of Campylobacter affected 33% (4/12) of people following a meal of steak, chips and salad at a franchise, although no source of the outbreak was identified.

New South Wales health reported a further 4 outbreaks of gastroenteritis of unknown aetiology.

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Northern Territory

The Northern Territory reported 1 outbreak of foodborne or suspected foodborne illness during the quarter.

Two people experienced gastroenteritis following a dinner party of 6 people at a private residence. One case tested positive for S. Typhimurium U302. The food vehicle was suspected to be tiramisu made with raw eggs.

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Queensland

Queensland reported 7 outbreaks of foodborne or suspected foodborne illness during this quarter: S. Typhimurium caused 3 outbreaks, norovirus caused 2 outbreaks, ciguatera fish poisoning caused 1 outbreak and there was 1 outbreak where no aetiological agent was identified.

All 3 Salmonella outbreaks during the 1st quarter occurred in aged care facilities. In January 2009, 3 residents of a Fraser Coast nursing home were infected with S. Typhimurium 135a (MLVA profile 1-3-4-21-3), although no source of infection was identified. Also in January, 20 residents of a Gold Coast nursing home were infected with S. Typhimurium 44 (MLVA profile 1-1-19-14-3). The same strain of S. Typhimurium was isolated from a swab of the kitchen blender and from several food samples, including vitamised meals and scrambled eggs, although the source of contamination wasn't definitively identified. In February 2009, 2 female residents of a Brisbane aged care facility and a male resident of an adjacent facility were notified with S. Typhimurium. All cases consumed egg meals prior to illness; however, no vehicle or source of infection was identified.

Queensland reported 2 foodborne outbreaks due to norovirus during the quarter. The 1st occurred in January and affected 83% (10/12) of people from 3 families who shared a common meal. Onset dates of illness suggested likely foodborne transmission, although no source of infection was identified. In the 2nd norovirus outbreak, 68% (20/29) of people attending a work conference became ill after consuming sandwiches and bakery items. Hot cross buns (RR 2.2, 95% CI 1.0–4.8) were associated with illness and a mixture of person-to-person and foodborne transmission was suspected.

In February 2009, 3 people were affected by ciguatera fish poisoning after eating Spanish mackerel steaks. The median incubation period was 6 hours (range 4–9 hours) and 2 case patients were hospitalised. The fish (>20 kg) was purchased from a Brisbane market and had been caught off Mooloolaba by a private fisherman.

Six people became ill with gastroenteritis after eating at a Gold Coast restaurant in February 2009. No faecal specimens were collected, although B. cereus was detected in 83% (5/6) swabs from the kitchen. No vehicle or source of infection was identified.

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Victoria

Victoria reported 7 outbreaks of foodborne or suspected foodborne illness this quarter.

There were 3 foodborne outbreaks in February 2009. The 1st affected a group of people staying at a motel where 24% (10/42) of people eating a buffet meal became ill with diarrhoea. Clinical illness was consistent with C. perfringens intoxication and 1 faecal specimen was positive for C. perfringens enterotoxin. In the 2nd outbreak, 2 people who regularly ate food at the same restaurant were infected with S. Typhimurium 197, although no source was identified. In the 3rd outbreak, 4% (3/80) of people attending a 40th wedding anniversary were infected with S. Typhimurium 170, along with an employee. No source was identified for the outbreak.

In March, 22 residents of an aged care home experienced diarrhoea, with most people becoming ill on a single day. Ten of the cases had a vitamised diet representing 33% of all of the people in the facility on this diet, although the association was not significant (RR 1.6, 95%CI 0.79–3.4). Ten faecal specimens were positive for C. perfringens enterotoxin.

Routine surveillance identified an outbreak of S. Typhimurium 170 amongst 17 children attending the same child care centre. One staff member was also affected. No source was identified for the outbreak. In March, gastrointestinal illness affected a group of 93 people attending a bushwalking club weekend. The attack rate was 43% amongst 30 people responding to a questionnaire and no source for the outbreak was identified. The illness was consistent with a bacterial intoxication. Routine surveillance identified an outbreak of S. Typhimurium 44 affecting 5 people attending a birthday party at a private home, although no source was identified.

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Western Australia

Western Australia reported 3 outbreaks during the 1st quarter of 2009.

Seven cases of S. Saintpaul were associated with eating at an Asian restaurant in January 2009, with cases reporting incubation periods ranging from 3.5 hours to 10 days. Eighty-six per cent (6/7) of cases had eaten fried icecream, and one case had eaten a red bean dessert with no icecream. People attending the restaurant during this period were contacted but no further cases were identified. Fried icecream was positive for S. Saintpaul, which was indistinguishable from human strains by pulsed-field gel electrophoresis (PFGE). The source of S. Saintpaul contamination of the fried icecream was not identified.

In February 2009, 33% (16/48) of residents of a high care unit in an aged care facility experienced diarrhoea with onset of illness over a 2 day period and a median duration of 1.5 days. Two staff members were ill with diarrhoea and vomiting. Consuming vitamised food was strongly associated with illness (OR 11.5, CI 1.9-116.6). Thirteen faecal samples were negative for common bacterial and viral pathogens, as well as bacterial toxins. Two stools were positive for C. perfringens but had different PFGE profiles. There were no remaining food samples from the period prior to onset of illness, and more recent food samples that had been vitamised were negative for common bacterial pathogens and toxin. The aetiological agent and source of infection were not identified.

Ten cases of S. Singapore were notified in February and March 2009. Five cases had eaten at the same outlet of an Asian franchise restaurant and another case ate at a different outlet of the same franchise. There were no reports of staff illness and chicken meat samples were negative for Salmonella. The source of S. Singapore from the restaurant franchise was not identified.

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Cluster investigations

During the 1st quarter of 2009, OzFoodNet investigated a multi-jurisdictional outbreak in Shiga toxin-producing Escherichia coli (STEC) O157 infection. The Microbiological Diagnostic Unit Public Health Laboratory typed isolates using PFGE and phage typing and identified that amongst STEC O157 cases, there was a distinct cluster of 14 cases in Queensland (3 cases), New South Wales (3 cases), Victoria (1 case), and South Australia (7 cases). OzFoodNet epidemiologists identified several foods of interest through hypothesis generating interviews, but there were no common brands and the number of cases declined before an analytical study could be performed.

During the 1st quarter of 2009, jurisdictions reported increases in cryptosporidiosis, including the Australian Capital Territory with 68 cases in the 1st quarter of 2009 compared with seven for same time period in 2008, and Queensland with 1,036 cases in the 1st quarter of 2009 compared with 241 in 2008. Queensland reported that a cluster of 12 cases of cryptosporidiosis in the Sunshine Coast in March had swum at the same aquatic centre, where 2 water samples were positive for Cryptosporidium. The Northern Territory reported clusters of cases of cryptosporidiosis in remote communities.

Several clusters of Salmonella were investigated during the quarter, including serotypes Montevideo, Singapore, Virchow, subspecies 1, Waycross, and Typhimurium phage types 197, 9, 44 and 170/108. Victoria investigated a cluster of 4 cases of locally acquired typhoid infection where case patients shopped at the same food store. There were no secondary cases among families of the 4 cases. Despite intensive investigations, no source was identified. In addition, jurisdictions investigated clusters of a range of other enteric infections during the quarter, including: yersiniosis and listeriosis in Queensland, multi-drug resistant Shigella sonnei biotype G in Victoria, Shigella sonnei biotype A, and Shigella flexneri 3b and STEC O157 (with a different PFGE to the multi-jurisdictional outbreak) in Western Australia.

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Comments

There were a large number of foodborne outbreaks (n=43) during the quarter when compared with the previous quarter and the same quarter in 2008. The main cause of the increase was a large increase in both sporadic cases and point source outbreaks due to S. Typhimurium 170/108 (Figure). In total, there were 15 outbreaks of S. Typhimurium 170/108 this quarter, with 11 occurring in New South Wales. As a result of the large number of outbreaks and increase in sporadic notifications of this phage type, OzFoodNet initiated a multi-jurisdictional outbreak investigation in April 2009.

Figure: Notifications of Salmonella Typhimurium 170/108 to state and territory health departments, National Notifiable Diseases Surveillance System, Australia, 2006 to June 2009

Figure:  Notifications of <em>Salmonella</em> Typhimurium 170/108 to state and territory health departments, National Notifiable Diseases Surveillance System, Australia, 2006 to June 2009

Data were extracted on 25 June 2009.

The majority of these S. Typhimurium 170/108 outbreaks were suspected to be caused by contaminated eggs, which are a consistent cause of Salmonella outbreaks in Australia.1,2 This is partly because eggs are a commonly consumed food, but also due to the endemic nature of Salmonella in egg-laying flocks. It is important that consumers and the food service industry recognise the risks associated with raw or partially cooked eggs. Food Standards Australia New Zealand is currently preparing a primary production and processing standard for the egg production sector to improve food safety relating to eggs in Australia.1

During the quarter there were 8 outbreaks of foodborne disease in aged care facilities, which is higher than previous years. Five of these outbreaks were due to Salmonella, which reflects the general upsurge in salmonellosis outbreaks during summer and autumn. Outbreaks of gastroenteritis are common amongst aged care facility residents, but most of these are non-foodborne.3 In Australia, a new food standard was introduced that was designed to protect populations that may be more vulnerable to foodborne infections, such as those living in aged care facilities.4

During the quarter, jurisdictions used a variety of typing schema and nomenclature for Salmonella, which made it difficult to determine whether increases in infections in 1 jurisdiction related to that occurring in other jurisdictions. For the investigation into the multi-jurisdictional outbreak of STEC, it was necessary to send isolates or specimens from several jurisdictions to a single laboratory due to the complicated nature of testing. Laboratories are fundamental to foodborne disease investigation and it is important to understand the impact of changes in laboratory testing on outbreak detection and investigation.5

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Acknowledgements

OzFoodNet thanks the investigators in the public health units and state and territory departments of health, as well as public health laboratories and local government environmental health officers who provided data used in this report. We would also like to thank laboratories conducting serotyping, molecular typing and phage typing of Salmonella for their continuing work during this quarter.

The OzFoodNet Working Group is (in alphabetical order): Robert Bell (Qld), Barry Combs (WA), Craig Dalton (Hunter New England), Lindy Fritsche (NSW), Kathleen Fullerton (DoHA), Robyn Gibbs (WA), Joy Gregory (Vic), Gillian Hall (NCEPH), Michelle Harlock (NT), Geoff Hogg (MDU), Libby Gruszynski (HNE), Katina Kardamanidis (NSW), Martyn Kirk (DoHA), Katrina Knope (DoHA), Karin Lalor (Vic), Narelle Marro (DAFF), Tony Merritt (Hunter New England), Cameron Moffatt (ACT), Jennie Musto (NSW), Lillian Mwanri (SA), Bev Paterson (Hunter New England), Nevada Pingault (WA), Jane Raupach (SA), Mark Salter (FSANZ), Craig Shadbolt (NSWFA), Frances Sheehan (Qld), Russell Stafford (Qld), Nicola Stephens (Tas), Hassan Vally (NCEPH), Mark Veitch (MDU).

Author details

Correspondence: Mr Martyn Kirk, Senior Epidemiologist, OzFoodNet, Office of Health Protection, Australian Government Department of Health and Ageing, GPO Box 9848, MDP 14, CANBERRA ACT 2601. Telephone: +61 2 6289 2746. Facsimile: +61 2 6289 2500. Email: martyn.kirk AT health.gov.au

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References

1. Fullerton K. Monitoring the incidence and causes of diseases potentially transmitted by food in Australia: annual report of the OzFoodNet Network, 2007. Commun Dis Intell 2008;32:400–424.

2. Stephens N, Coleman D, Shaw K. Recurring outbreaks of Salmonella Typhimurium phage type 135 associated with the consumption of products containing raw egg in Tasmania. Commun Dis Intell 2008;32:466–468.

3. Ryan MJ, Wall PG, Adak GK, Evans HS, Cowden JM. Outbreaks of infectious intestinal disease in residential institutions in England and Wales 1992–1994. J Infect 1997;34:49–54.

4. Kirk MD, McKay I, Hall GV, Dalton CB, Stafford R, Unicomb L, et al. Food safety: foodborne disease in Australia: the OzFoodNet experience. Clin Infect Dis 2008;47:392–400.

5. Kafatos G, Andrews N, Gillespie IA, Charlett A, Adak GK, De Pinna E, et al. Impact of reduced numbers of isolates phage-typed on the detection of Salmonella outbreaks. Epidemiol Infect 2009;137:821–827.

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This issue - Vol 33 No 2, June 2009