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Climate, lactation, and treatment factors influence faecal shedding of Escherichia coli O157 pathotypes in dairy cows

Published online by Cambridge University Press:  16 September 2016

C. STENKAMP-STRAHM*
Affiliation:
Colorado State University, Department of Clinical Sciences, Animal Population Health Institute, Fort Collins, CO, USA
C. McCONNEL
Affiliation:
Colorado State University, Department of Clinical Sciences, Animal Population Health Institute, Fort Collins, CO, USA
S. RAO
Affiliation:
Colorado State University, Department of Clinical Sciences, Animal Population Health Institute, Fort Collins, CO, USA
R. MAGNUSON
Affiliation:
Colorado State University, Department of Clinical Sciences, Animal Population Health Institute, Fort Collins, CO, USA
D. R. HYATT
Affiliation:
Colorado State University, Department of Clinical Sciences, Animal Population Health Institute, Fort Collins, CO, USA
L. LINKE
Affiliation:
Colorado State University, Department of Clinical Sciences, Animal Population Health Institute, Fort Collins, CO, USA
*
*Author for correspondence: Ms. C. Stenkamp-Strahm, Colorado State Veterinary Medicine and Biomedical Sciences, 1644 Campus Delivery, Fort Collins, CO 80523, USA. (Email: cstenkam@lamar.colostate.edu)
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Summary

Among pathogens shed by cattle, Escherichia coli O157 ranks highest in those causing human illness. To date, prevalence and risk factors for O157 shedding have been assessed in feedlot, but not dairy cattle. The study aimed to determine prevalence levels and risk factors for O157 atypical enteropathogenic E. coli (aEPEC) and enterohaemorrhagic E. coli (EHEC) shedding in dairy cattle. Dairy cattle (n = 899) within the first 21 days of lactation were sampled monthly over the course of 1 year, on three dry lot dairies surrounding Fort Collins, CO. During visits multiple factors were measured (disease history, pharmaceutical use, climate measures, etc.), and cattle faeces were collected and assessed for presence of O157 and virulence genes. Logistic regression analysis was performed using O157 outcomes and measured factors. Prevalence of O157 aEPEC was 3·7%, while EHEC was 3·0%. Many potential risk factors were highly correlated, and used to build separate multivariable models. An increase in humidity was positively associated with aEPEC, while fluid faeces and history of disease showed a negative association. Meanwhile, an increase in temperature and antibiotic treatment was positively associated with EHEC, while more days in milk, higher hygiene score and cow contact were negatively associated. These results may guide mitigation strategies that reduce O157 shedding, and contamination of the human food chain.

Information

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

Table 1. Variables used in regression analysis

Figure 1

Fig. 1. Monthly prevalence of atypical enteropathogenic E. coli (aEPEC) and enterohaemorrhagic E. coli (EHEC) measured for (a) herd 1, (b) herd 2 and (c) herd 3, respectively. No isolates collected from herd 3 were positive for EHEC.

Figure 2

Table 2. Herd, climate and individual cow parameters pre-selected (P < 0·25) for inclusion in aEPEC modelling

Figure 3

Table 3. Pre-selected parameters for aEPEC modelling found to be correlated at P < 0·05

Figure 4

Table 4. Herd, climate and individual cow parameters pre-selected (P < 0·25) for inclusion in EHEC modelling

Figure 5

Table 5. Pre-selected parameters for EHEC modelling found to be correlated at P < 0·05

Figure 6

Table 6. Final multivariable models determined for aEPEC and EHEC shedding, using ‘dairy herd’ as a clustering constraint

Supplementary material: File

Stenkamp-Strahm supplementary material

Appendix 1-3

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