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Estimating true incidence of O157 and non-O157 Shiga toxin-producing Escherichia coli illness in Germany based on notification data of haemolytic uraemic syndrome

Published online by Cambridge University Press:  29 July 2016

A. KUEHNE*
Affiliation:
Robert Koch Institute (RKI), Department for Infectious Disease Epidemiology, Berlin, Germany
M. BOUWKNEGT
Affiliation:
Centre for Infectious Disease Control, National Institute for Public Health and the Environment (RIVM), Bilthoven, The Netherlands
A. HAVELAAR
Affiliation:
Centre for Infectious Disease Control, National Institute for Public Health and the Environment (RIVM), Bilthoven, The Netherlands Emerging Pathogens Institute and Animal Sciences Department, University of Florida, Gainesville, FL, USA
A. GILSDORF
Affiliation:
Robert Koch Institute (RKI), Department for Infectious Disease Epidemiology, Berlin, Germany
P. HOYER
Affiliation:
Clinic for Pediatrics II, Essen University Hospital, University Duisburg-Essen, Essen, Germany
K. STARK
Affiliation:
Robert Koch Institute (RKI), Department for Infectious Disease Epidemiology, Berlin, Germany
D. WERBER
Affiliation:
Robert Koch Institute (RKI), Department for Infectious Disease Epidemiology, Berlin, Germany State Office for Health and Social Affairs, Berlin, Germany
*
*Author for correspondence: Dr Anna Kuehne, Robert Koch Institute, Department for Infectious Disease Epidemiology, Seestr. 10, 13353 Berlin, Germany. (Email: KuehneAn@rki.de)
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Summary

Shiga toxin-producing Escherichia coli (STEC) is an important cause of gastroenteritis (GE) and haemolytic uraemic syndrome (HUS). Incidence of STEC illness is largely underestimated in notification data, particularly of serogroups other than O157 (‘non-O157’). Using HUS national notification data (2008–2012, excluding 2011), we modelled true annual incidence of STEC illness in Germany separately for O157 and non-O157 STEC, taking into account the groups’ different probabilities of causing bloody diarrhoea and HUS, and the resulting difference in their under-ascertainment. Uncertainty of input parameters was evaluated by stochastic Monte Carlo simulations. Median annual incidence (per 100 000 population) of STEC-associated HUS and STEC-GE was estimated at 0·11 [95% credible interval (CrI) 0·08-0·20], and 35 (95% CrI 12-145), respectively. German notification data underestimated STEC-associated HUS and STEC-GE incidences by factors of 1·8 and 32·3, respectively. Non-O157 STEC accounted for 81% of all STEC-GE, 51% of all bloody STEC-GE and 32% of all STEC-associated HUS cases. Non-O157 serogroups dominate incidence of STEC-GE and contribute significantly to STEC-associated HUS in Germany. This might apply to many other countries considering European surveillance data on HUS. Non-O157 STEC should be considered in parallel with STEC O157 when searching aetiology in patients with GE or HUS, and accounted for in modern surveillance systems.

Information

Type
Original Papers
Copyright
Copyright © Cambridge University Press 2016 
Figure 0

Fig. 1. Modelling true annual incidence of O157 and non-O157 STEC illness in Germany based on notification data of haemolytic uraemic syndrome (HUS).

Figure 1

Table 1. Input parameters for the risk model to estimate true incidence of O157 and non-O157 STEC illness in Germany based on notification data of haemolytic uraemic syndrome (HUS)

Figure 2

Fig. 2. Results of the systematic review to identify input parameters for the estimation of the true incidence of O157 and non-O157 STEC illness in Germany based on notification data of haemolytic uraemic syndrome (HUS).

Figure 3

Table 2. Results of modelling median annual case numbers and median annual incidence (with 95% credible intervals) of O157 and non-O157 STEC illness in Germany based on notification data of haemolytic uraemic syndrome (HUS)

Figure 4

Fig. 3. Sensitivity analysis of influence of input parameters on frequency of STEC-GE in Germany based on notification data of haemolytic uraemic syndrome (HUS).

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