Hostname: page-component-586b7cd67f-l7hp2 Total loading time: 0 Render date: 2024-11-22T17:32:23.253Z Has data issue: false hasContentIssue false

Large outbreak of Salmonella Enteritidis PT8 in Portsmouth, UK, associated with a restaurant

Published online by Cambridge University Press:  14 December 2011

E. SEVERI*
Affiliation:
South East Regional Epidemiology Unit, Health Protection Agency, London, UK
L. BOOTH
Affiliation:
Hampshire and Isle of Wight HPU, Health Protection Agency, Whiteley, UK
S. JOHNSON
Affiliation:
South East Regional Epidemiology Unit, Health Protection Agency, London, UK
P. CLEARY
Affiliation:
North West Regional Epidemiology Unit, Health Protection Agency, Liverpool, UK
M. RIMINGTON
Affiliation:
Environment and Public Protection Service, Portsmouth City Unitary Authority, UK
D. SAUNDERS
Affiliation:
Directorate of Public Health, Portsmouth City Teaching Primary Care Trust, UK
P. COCKCROFT
Affiliation:
Department of Clinical Microbiology, Portsmouth Hospitals NHS Trust, UK
C. IHEKWEAZU
Affiliation:
South East Regional Epidemiology Unit, Health Protection Agency, London, UK
*
*Author for correspondence: Mr E. Severi, Health Protection Agency, 151 Buckingham Palace Road, London SW1W 9SZ, UK. (Email: [email protected])
Rights & Permissions [Opens in a new window]

Summary

Seventy-five individuals with Salmonella infection were identified in the Portsmouth area during August and September 2009, predominantly Salmonella Enteritidis phage type 8. Five patients were admitted to hospital. A case-case comparison study showed that a local restaurant was the most likely source of the infection with a risk of illness among its customers 25-fold higher than that of those who did not attend the restaurant. A case-control study conducted to investigate specific risk factors for infection at the restaurant showed that eating salad was associated with a threefold increase in probability of illness. Changing from using ready washed lettuces to lettuces requiring washing and not adhering strictly to the 48 hours exclusion policy for food handlers with diarrhoea were likely to have contributed to the initiation and propagation of this outbreak. Possibilities for cross-contamination and environmental contamination were identified in the restaurant.

Type
Original Papers
Copyright
Copyright © Cambridge University Press 2011

INTRODUCTION

Salmonella Enteritidis is one of the Salmonella serotypes frequently associated with morbidity and mortality in humans [Reference Ahmed1]. S. Enteritidis phage-type 4 was the most common phage type isolated during the 1980s and the 1990s in England and Wales [Reference O'Brien and Ward2]. However, the incidence of S. Enteritidis phage-type 8 (SE PT8) and other more unusual phage types of S. Enteritidis has increased in the last 10 years [Reference Gillespie and Elson3]. Studies have reported SE PT8 as the predominant phage type in Poland, Slovak Republic, Czech Republic, Denmark and the USA in the 1990s and at the beginning of this century [Reference de Jong and Ekdahl4Reference van Duijkeren6]. SE PT8 has also been implicated in large outbreaks in the USA in 2002 and Italy in 2006 affecting over 650 and 150 patients, respectively [Reference Beatty7, Reference Romani8].

The number of reported cases of SE PT8 in England and Wales in recent years was: 599 (in 2005), 1119 (in 2006), 1384 (in 2007) and 386 (in 2008). In 2007 the Health Protection Agency (HPA) conducted a national case-control study to explore the 2006/2007 increase. This study showed eating egg dishes away from home was strongly associated with acquiring SE PT8 infection [multivariate analysis: odds ratio (OR) 8·52, 95% confidence interval (CI) 1·42–51·1, P=0·009]. Overall, SE PT8 accounted for 7% of all salmonellae in the period 2005–2008 (Centre for Infection, personal communication).

In August 2009, Portsmouth Hospitals NHS Trust (PHT) microbiology laboratory informed the Hampshire and Isle of Wight Health Protection Unit (HIOW HPU) of the HPA of a sudden increase in Salmonella infections. The HIOW HPU, which serves an area with a population of 1·8 million, routinely monitors reports of infectious diseases from local laboratories. Between 2003 and 2008, the PHT laboratory reported a mean number of five S. Enteritidis-positive isolates per month, of which about 10% were PT8. Specimens received in late August 2009 were retested to exclude laboratory cross-contamination and the outbreak was subsequently confirmed. All individuals with S. Enteritidis lived in Portsmouth and adjoining areas of southeast Hampshire. The majority of the Salmonella isolates were identified as SE PT8. At the time there were no other identified outbreaks caused by this strain elsewhere in the UK.

An outbreak investigation was conducted in order to confirm and quantify the size of the outbreak, determine risk factors for its occurrence and advise on control measures.

METHODS

HIOW HPU routinely receives reports of Salmonella infections from local laboratories. On 28 August 2009, PHT microbiology laboratory informed HIOW HPU of a suspected increase in Salmonella infections. Following retesting of specimens to exclude a laboratory artefact, results were reported to HIOW HPU on 1 September 2009.

On the same day HIOW HPU sent an alert to local authorities and neighbouring HPUs informing them of the increase in Salmonella infections and issued a standardized general Salmonella questionnaire to be administered to all individuals with a stool sample positive for S. Enteritidis identified by the PHT laboratory. The questionnaire collected data on demography, symptoms and risk factors within 7 days of the onset of symptoms, including travel history, contact with animals, food, water, environmental, recreational exposures and shopping habits. The questionnaire was administered by the local authority or HPU staff and a flexible approach was permitted (telephone or postal response) to expedite data collection and increase the response rate.

Questionnaires were double-entered using EpiData software (EpiData Association, Denmark) with correction of discordant records. Data from the questionnaires were analysed to generate a hypothesis for the source of infection and vehicle of transmission.

Microbiological investigations

At the PHT laboratory stool samples were plated onto xylose-lactose-deoxycholate (XLD) agar and inoculated into selenite broth. The broth was subcultured the next day onto Salmonella ABC chromogenic medium (Lab M Ltd, UK). Culture plates were incubated for 16–24 h and suspicious colonies were further characterized by agglutination tests and biochemical tests.

Speciation and phage-typing were performed at the Salmonella reference laboratory at the Centre for Infection, HPA.

Descriptive analysis

Cases were defined as persons with laboratory-confirmed Salmonella, where the sample was taken after 14 August 2009 and the result was provided by 30 September 2009. They were described in terms of demography, illness (date of onset, hospitalization, severity), and exposures within the incubation period.

Analytical epidemiology

A case-case comparison study was subsequently conducted to test a hypothesis generated from the descriptive analysis implicating a particular exposure setting, hereafter referred to as restaurant A. The study population included the same individuals as in the descriptive analysis. Cases were defined as any individual with SE PT8 infection. The comparison group was defined as individuals ill with Salmonella infection which proved to be due to a strain other than SE PT8 (classified as ‘Other salmonellae’). The standardized questionnaire was administered to cases and controls. Unconditional logistic regression was used to examine associations between having the phage type of interest and exposure variables. EpiData analysis and Stata v. 11 (StataCorp., USA) were used for data analysis.

In addition, an unmatched case-control study was performed to identify specific risk factors at restaurant A. Cases were defined as patients with confirmed SE PT8 from stool samples, who had an acute gastrointestinal illness (diarrhoea with ⩾3 stools per day and/or abdominal pain) with an onset within 7 days of visiting restaurant A and a laboratory result provided by Friday 25 September with a stool specimen date after 14 August. Further cases were identified following local and national alerts. Controls were defined as individuals without gastrointestinal symptoms who had accompanied a confirmed SE PT8 case on their visit to restaurant A within 7 days of the onset of illness in the confirmed case. A second questionnaire, including the menu at restaurant A, was posted by HPU staff to cases and controls. Owing to the complexity of the menu, the different menu items were analysed individually and in addition, common ingredients were grouped together and analysed as a group, e.g. any dish containing bacon, any dish containing whole egg (fried or scrambled), chicken, tuna, sausage, ham, and cheddar cheese, etc. Statistical analysis was performed using R [Reference Chongsuvivatwong9, 10].

In both of the analytical studies we explored the association between study variables and SE PT8 infection using univariate analysis. Those variables found to be associated in the univariate analysis at P<0·1 were included in the multivariate analysis. For each analysis we estimated the OR and 95% CI.

Environmental investigations

Restaurant A was inspected by environmental health officers from the Portsmouth City Council (PCC) Environment and Public Protection Service. Methods of preparation, working environment and food safety practices were reviewed in detail.

Twenty-three environmental swabs from the kitchen preparation area, basins, containers, dishes and food samples were collected and sent for microbiological testing on 7 September.

Staff were interviewed on several occasions to determine procedures used in restaurant A. Twenty-five staff completed a staff questionnaire regarding the presence of symptoms and the consumption of food at work. Stool specimens were collected from those staff members who had reported symptoms. Screening was later extended to all current staff.

RESULTS

Microbiological investigations

Seventy-five individuals with a Salmonella infection were identified by the PHT laboratory from stool samples collected after 14 August 2009 and results provided by 30 September 2009. Of the 75 isolates, 54 were PT8. In addition, six further patients with Salmonella PT8 isolates, linked to restaurant A were identified through other laboratories. All isolates were subsequently confirmed at the Salmonella Reference Unit at the HPA Centre for Infection.

Descriptive analysis

Out of 75 cases, questionnaires were completed for 68 (a response rate of 90%). Of these 68, 53 (78%) were diagnosed with SE PT8 (see Fig. 1). The dates of onset of 41 (77%) of the 53 PT8 cases were concentrated around a 6-day period between 18 and 23 August with a single peak on the 19 August (Fig. 2). Seventy-four per cent of the PT8 cases were female with a median age of 43 years (range 1–73 years). Median age for males was 16 years (range 5–73 years). Of the 68 cases, five (all SE PT8 cases) were admitted to hospital. Hospital stays ranged from 1 to 28 days (median 10 days). For the 38 (56%) patients for whom duration of illness was available, 19 reported illness lasting ⩾10 days. Of the 68 cases, 50 (74%) had visited restaurant A within 7 days prior to onset of symptoms; one was a member of staff at this restaurant. The median duration between the visit and onset of illness was 3 days (range 0–7 days). Of the 18 individuals who did not report a visit to restaurant A, four (22%) had a SE PT8 infection. The hypothesis generated was that this outbreak of SE PT8 in the catchment area of the PHT laboratory was associated with a visit to restaurant A. This was further examined by analytical methods.

Fig. 1. Flow diagram describing descriptive, case-case comparison and case-control study populations. * Salmonella PT8 cases linked to restaurant A identified by other laboratories than Portsmouth Hospitals NHS Trust (PHT).

Fig. 2. Epidemic curves of cases of Salmonella in the catchment area of the Portsmouth Hospitals NHS Trust microbiology laboratory, showing date of onset, PT8 status (n=53) and restaurant A visit (n=50). n=67 (one case with onset before 1 July 2009 is not shown). The vertical arrow (↓) indicates the earliest illness onset of a food worker.

Analytical epidemiology

Case-case comparison study

The results of our univariate analysis (Table 1) showed an association between SE PT8 infection and having eaten food from any restaurant, café, tea shop, pub or hotel (OR 13·53, 95% CI 2·98–72·24). Having eaten at restaurant A showed the strongest association with SE PT8 infection (OR 36·79, 95% CI 4·81–1689·50). Being a SE PT8 case was also found to be associated with being aged >35 years, having eaten food bought in a supermarket and having eaten salad, but no association was found with any particular supermarket or with any particular source or brand of salad. Travel outside the UK in the 3 days prior to onset of symptoms showed a negative association with SE PT8 infection (OR 0·04, 95% CI 0·01–0·23). No association was found between being a SE PT8 case and having had close contact with anyone suffering from diarrhoea before the onset of symptoms, or with consumption of eggs, chicken, milk, or handling poultry.

Table 1. Univariate and multivariate analysis of the risk factors associated with Salmonella Enteritidis PT8 infection (case-case study)

OR, Odds ratio; CI, confidence interval.

** P value from Fisher's exact test; *** P value from Wald test.

The multivariate model included age, eating at restaurant A, travel outside of the UK and eating salad and food from a supermarket. The only variable associated with being a SE PT8 case was eating at restaurant A (adjusted OR 24·55, 95% CI 1·62–371·63).

After restricting the analysis to individuals ill with Salmonella not exposed to restaurant A, no association was found between being a SE PT8 case and any single exposure.

Case-control study

A total of 109 individuals were enrolled in the case-control study: 51 were cases and 58 controls (see Fig. 1). Out of the 51 cases responding the questionnaire, 48 originated from the same population of the case-case comparison study; three further cases were enrolled after they were identified by out of area laboratories. Cases had a mean age of 37 years (range 3–71 years) and 76% were female. Controls had a mean age of 36 years (range 3–77 years) and 54% were female.

On univariate analysis, having eaten salad was associated with being a SE PT8 case (OR 3·84, 95% CI 1·65–8·96) (Table 2). There was also an association between being a SE PT8 case and having eaten coleslaw (OR 6·31, 95% CI 1·69–23·55).

Table 2. Univariate and multivariate analysis of the food items associated with Salmonella Enteritidis PT8 infection (case-control study)

OR, Odds ratio; CI, confidence interval.

Twenty-seven (53%) cases had been exposed to salad and 20 (39%) to coleslaw. In total, 28 (55%) cases had been exposed either to salad or coleslaw.

Fitting both exposures into a multivariate model, there was no longer an association between coleslaw consumption and being a SE PT8 case, while eating salad was still associated with a threefold increase in risk for illness with SE PT8 (adjusted OR 2·93, 95% CI 1·19–7·19).

Environmental investigations

SE PT8 was isolated from a cloth in the pot wash area. A sample of precooked pasta had a total viable count of 1·3×108/g of SE PT8 suggestive of poor hygiene.

The supplier of lettuce had been changed prior to the outbreak resulting in the replacement of ready washed lettuce to lettuce which required washing. The new lettuce was washed in a sink also used for washing raw chicken.

Although some staff had defined working responsibilities, there was a complex system of rotas and responsibilities between full-time/part-time staff due to long opening hours (07:00–20:00 hours) with up to 250 customers per day.

During the investigation, it became clear that processes and procedures were complex as well. Staff would quickly change working responsibilities at short notice, depending on the demands at the time, increasing the risk of contamination unless satisfactory standards of hygiene were continually observed.

Staff were assigned to one of four roles on the work rota. These were front of house, chefs and kitchen, wash up and runners, with a large amount of interchange and multitasking. Positive Salmonella results were obtained from staff in each of these work areas.

Six staff tested positive for Salmonella of which five had SE PT8 and the sixth had S. Bredeney. Two SE PT8 results and the different strain were obtained from asymptomatic staff. An analysis of the onset dates of the confirmed SE PT8 in symptomatic staff members showed that the three developed symptoms on 17 and 18 August. Staff records showed that three (one of whom was symptomatic) of the five staff worked in the tea rooms on the 17 August.

Outbreak control

The Outbreak Control Team (OCT) first focused on ensuring that the premises were safe to operate, and second, to investigate the cause of the outbreak. Officers from PCC Environment and Public Protection Service worked to ensure that food safety practices/procedures in the restaurant were satisfactory. Changes in practice that were advised included increased changing of cloths, replacing terry hand towels with paper towels and using bowls to give greater separation when washing different food items in the same sink. The use of sanitizers and gloves was reviewed to ensure that the sanitizer was always available and that gloves were changed appropriately, especially after handling potentially contaminated food items. Advice was also given on the Food Standards Agency criteria for the return to work of food handlers with gastrointestinal symptoms. The business owners cooperated fully with every aspect of the investigation and adopted advice, guidance and information where appropriate. The premises remained open throughout the outbreak investigation.

The incident was considered to have ended at the OCT meeting on 17 September 2009; however, heightened surveillance was continued until the end of October.

DISCUSSION AND CONCLUSION

We report a large outbreak of SE PT8 involving 60 confirmed cases. Most of the cases were resident in the Portsmouth area, South of England, and were ill between August and September 2009. The first case of SE PT8 was reported on 1 August 2009, the last on 5 September 2009. The true number of SE PT8 cases is likely to have been higher due to underreporting [Reference Wheeler11].

Salad consumed at restaurant A was statistically implicated as the vehicle; however, it is likely that it was not the only vehicle, as only 53% of cases reported eating salad. In this restaurant, salad was a common garnish on many dishes. The lettuce, which had recently changed from ready washed lettuce to lettuce requiring washing, was washed in the same sink used for washing raw chicken. Raw chicken has been described as a potential source of Salmonella [Reference Currie12Reference Wilson14]. It is unlikely that lettuce would have been contaminated from the supplier as there were no other identified outbreaks of SE PT8 at the time. When we restricted the analysis to individuals ill with Salmonella, who had not been exposed to restaurant A, no association between being a PT8 case and eating salad, chicken or any other specific food item was found.

Although SE PT8 has been found to be associated with eating chicken outside the home and keeping a pet lizard [Reference Marcus15], and S. Enteritidis infections are commonly associated with eggs and poultry [16], in recent years reports of gastroenteritis originating from contaminated salad have significantly increased. Little & Gillespie, in a review of foodborne general outbreaks of infectious intestinal disease between 1992 and 2006 in England and Wales, found that four percent of the outbreaks (n=82) were associated with salad [Reference Little and Gillespie17]. Berger et al. [Reference Berger18] reported that Salmonella can efficiently and successfully adhere to salad leaves in any phase between plant growth and human consumption.

A dish cloth from the area where pots were washed was positive for SE PT8 on 7 September. A positive result could occur if a newly introduced contaminated item had just been washed. However, it is likely from the descriptive epidemiology that the outbreak strain persisted in the restaurant for around 3 weeks. The epidemic curve, indicating a propagated outbreak, suggests that the initial source of Salmonella infection persisted over a period of about 8 days in the restaurant or was propagated by infected staff members, resulting in the large number of people affected.

Out of the five members of staff found to be infected with SE PT8 during the outbreak investigation, three developed diarrhoea symptoms on 17 and 18 August. This preceded the peak of illness in customers but was after the date of the first case. Prior to the investigation, the restaurant management had not specifically advised symptomatic members of staff to stay away from work until 48 h after the first normal stool as recommended under Food Safety Agency guidance [19, 20]. Staff may have been infected in a similar way to customers or been unwitting sources of infection, or both. As staff stool specimens were collected from 7 September onwards, it is possible that Salmonella could have cleared before testing was undertaken leading to an underestimate of the number of staff infected.

Food handlers have previously been implicated in Salmonella outbreaks [Reference Hedican21Reference Todd23]. In 2007 Greig et al. estimated that the incidence of Salmonella outbreaks involving food handlers had increased in recent years [Reference Greig24]. Food handlers can become infected by consuming contaminated food, handling contaminated raw materials or through environmental contamination. Regardless of the initial source of the outbreak, food handlers often serve as a reservoir for the infection, contributing to its prolonged transmission [Reference Medus25].

Salmonella outbreaks involving implicated food handlers can be associated with a longer incubation period prior to illness. This can be explained by the low number of bacteria shed by food handlers [Reference Medus25]. This outbreak reflects a similar situation. Eighteen per cent of our PT8 cases (eight individuals) had an incubation period between 4 and 7 days, considerably longer than the characteristic 12 h to 3 days window generally defined for Salmonella [Reference Heymann26, 27].

The combination of the two different analytical study designs gave flexibility to the investigation, making a two-stage approach to identify a source of this large outbreak possible. Case-case studies using surveillance data have a reduced risk of being affected by selection bias than case-control studies. In case-case studies, cases and controls are subject to the same selective process of being reported into the surveillance system [Reference McCarthy and Giesecke28]. The major drawback of the case-case comparison study design is the possibility that aetiological exposures were systematically different between genotypes, which would affect the validity of the study if the number of different genotype cases included as comparators is small. Our comparison group included four other species of Salmonella and six other S. Enteritidis phage types, which would reduce the likelihood of this.

In the case-control study there may be an increase of recall bias in cases compared to controls. Because we used the same cases in both analytical studies, they may have had better recall as they had previously completed the standardized questionnaire and also due to their illness status. Since a standardized questionnaire was used for all cases of Salmonella as well as the cases involved in the outbreak, using the same source population for the case-control study, as for the initial case-case comparison study, was thought to be a reasonable approach.

Our study has some limitations. In the case-control study, controls were meal companions of cases. This could have been considered for a matched design, as controls were selected on the basis of their association with a particular case. As the information linking cases and controls was not recorded when data were collected, a conditional logistic regression to cross-check the finding of the unmatched case-control study was not done. However, the unmatched multivariate analysis appears robust and we believe that a matched estimate would have had a very similar odds ratio, with a more precise (less wide) 95% confidence interval.

We conclude that this outbreak was associated with restaurant A and that salad containing lettuce was implicated as the primary vehicle of transmission. The precise source of contamination was not detected but cross-contamination from raw chicken, infected food handlers and environmental contamination may have been contributory factors.

The outbreak investigation involved multiple organizations over a 2-month period including the HPA, several local authorities, the local acute trust, and two primary care trusts. This demonstrates the importance of good communication channels and the contribution of different components of the public health system.

To our knowledge this is the first outbreak of SE PT8 associated with a restaurant reported in the UK. With the increased incidence of this strain it is likely that new outbreaks of PT8 will occur in the future in the UK. Phage-typing of Salmonella isolates was extremely useful in identifying this outbreak.

DECLARATION OF INTEREST

None.

References

REFERENCES

1. Ahmed, R, et al. Epidemiologic typing of Salmonella enterica serotype enteritidis in a Canada-wide outbreak of gastroenteritis due to contaminated cheese. Journal of Clinical Microbiology 2000; 38: 24032406.CrossRefGoogle Scholar
2. O'Brien, S, Ward, L. Salmonella Enteritidis in England and Wales: increases in unusual phage types in 2002. Eurosurveillance 2002; 6: pii=1958.Google Scholar
3. Gillespie, I, Elson, R. Successful reduction of human Salmonella Enteritidis infection in England and Wales. Eurosurveillance 2005; 10: pii=2834.Google ScholarPubMed
4. de Jong, B, Ekdahl, K. The comparative burden of salmonellosis in the European Union member states, associated and candidate countries. BioMed Central Public Health 2006; 6: 4.CrossRefGoogle ScholarPubMed
5. Majtanova, L. Occurrence of Salmonella enterica serotype Enteritidis phage types in the Slovak Republic. European Journal of Epidemiology 1997; 13: 243245.CrossRefGoogle ScholarPubMed
6. van Duijkeren, E, et al. Serotype and phage type distribution of salmonella strains isolated from humans, cattle, pigs, and chickens in the Netherlands from 1984 to 2001. Journal of Clinical Microbiology 2002; 40: 39803985.CrossRefGoogle ScholarPubMed
7. Beatty, ME, et al. Large Salmonella Enteritidis outbreak with prolonged transmission attributed to an infected food handler, Texas, 2002. Epidemiology and Infection 2009; 137: 417427.CrossRefGoogle Scholar
8. Romani, C, et al. Reinterpreting a community outbreak of Salmonella enterica serotype Enteritidis in the light of molecular typing. BioMed Central Public Health 2007; 7: 237.CrossRefGoogle ScholarPubMed
9. Chongsuvivatwong, V.Epidemiological calculator. R package version 2.11.1.0 (http://CRAN.R-project.org/package=epicalc). Accessed 20 August 2010.Google Scholar
10. R Development Core Team. R: a language and environment for statistical computing. Vienna, Austria, 2010 (http://www.R-project.org). Accessed 20 August 2010.Google Scholar
11. Wheeler, JG, et al. Study of infectious intestinal disease in England: rates in the community, presenting to general practice, and reported to national surveillance. The Infectious Intestinal Disease Study Executive. British Medical Journal 1999; 318: 10461050.CrossRefGoogle ScholarPubMed
12. Currie, A, et al. Frozen chicken nuggets and strips and eggs are leading risk factors for Salmonella Heidelberg infections in Canada. Epidemiology and Infection 2005; 133: 809816.CrossRefGoogle ScholarPubMed
13. Parry, SM, et al. Risk factors for salmonella food poisoning in the domestic kitchen – a case-control study. Epidemiology and Infection 2002; 129: 277285.CrossRefGoogle ScholarPubMed
14. Wilson, IG. Salmonella and campylobacter contamination of raw retail chickens from different producers: a six year survey. Epidemiology and Infection 2002; 129: 635645.CrossRefGoogle ScholarPubMed
15. Marcus, R, et al. Re-assessment of risk factors for sporadic Salmonella serotype Enteritidis infections: a case-control study in five FoodNet Sites, 2002–2003. Epidemiology and Infection 2007; 135: 8492.CrossRefGoogle ScholarPubMed
16. Scientific Committee on Food. Risk profile on the microbiological contamination of fruits and vegetables eaten raw. European Commission, Directorate-General HCP, 2002.Google Scholar
17. Little, CL, Gillespie, IA. Prepared salads and public health. Journal of Applied Microbiology 2008; 105: 17291743.CrossRefGoogle ScholarPubMed
18. Berger, CN, et al. Interaction of Salmonella enterica with basil and other salad leaves. International Society for Microbial Ecology Journal 2009; 3: 261265.Google ScholarPubMed
19. Working Group of the former PHLS Advisory Committee on Gastrointestinal Infections. Preventing person to person spread following gastrointestinal infection – guidelines for public health physicians and environmental health officers. Communicable Disease and Public Health 2004; 7: 362384.Google Scholar
20. Food Standards Agency. Food handlers fitness to work – regulatory guidance and best practice advice for food business operators. Food Standards Agency, 2009.Google Scholar
21. Hedican, E, et al. Restaurant Salmonella Enteritidis outbreak associated with an asymptomatic infected food worker. Journal of Food Protection 2009; 72: 23322336.CrossRefGoogle ScholarPubMed
22. Hedican, E, et al. Salmonellosis outbreak due to chicken contact leading to a foodborne outbreak associated with infected delicatessen workers. Foodborne Pathogens and Disease 2010; 7: 995997.CrossRefGoogle ScholarPubMed
23. Todd, EC, et al. Outbreaks where food workers have been implicated in the spread of foodborne disease. Part 5. Sources of contamination and pathogen excretion from infected persons. Journal of Food Protection 2008; 71: 25822595.CrossRefGoogle ScholarPubMed
24. Greig, JD, et al. Outbreaks where food workers have been implicated in the spread of foodborne disease. Part 1. Description of the problem, methods, and agents involved. Journal of Food Protection 2007; 70: 17521761.CrossRefGoogle ScholarPubMed
25. Medus, C, et al. Salmonella outbreaks in restaurants in Minnesota, 1995 through 2003: evaluation of the role of infected foodworkers. Journal of Food Protection 2006; 69: 18701878.CrossRefGoogle ScholarPubMed
26. American Public Health Association. Salmonellosis. In: Heymann, DL, ed. Control of Communicable Diseases Manual , an official report of the American Public Health Association. Washington, DC, 2008, pp. 534540.Google Scholar
27. Center for Disease Control and Prevention. Diagnosis and management of foodborne illnesses: a primer for physicians and other health care professionals. Morbidity and Mortality Weekly Report. Recommendations Report 2004; 53: 133.Google Scholar
28. McCarthy, N, Giesecke, J. Case-case comparisons to study causation of common infectious diseases. International Journal of Epidemiology 1999; 28: 764768.CrossRefGoogle ScholarPubMed
Figure 0

Fig. 1. Flow diagram describing descriptive, case-case comparison and case-control study populations. * Salmonella PT8 cases linked to restaurant A identified by other laboratories than Portsmouth Hospitals NHS Trust (PHT).

Figure 1

Fig. 2. Epidemic curves of cases of Salmonella in the catchment area of the Portsmouth Hospitals NHS Trust microbiology laboratory, showing date of onset, PT8 status (n=53) and restaurant A visit (n=50). n=67 (one case with onset before 1 July 2009 is not shown). The vertical arrow (↓) indicates the earliest illness onset of a food worker.

Figure 2

Table 1. Univariate and multivariate analysis of the risk factors associated with Salmonella Enteritidis PT8 infection (case-case study)

Figure 3

Table 2. Univariate and multivariate analysis of the food items associated with Salmonella Enteritidis PT8 infection (case-control study)