Estimating Underdetection of Foodborne Disease Outbreaks (Response)

On This Page

Letter

Cite This Article

Figures

Figure

Downloads

Article

RIS [TXT - 2 KB]

Article Metrics

Metric Details

Cite This Article

In Response: Our analysis of foodborne outbreaks reported in the United States demonstrated that foodborne outbreaks are distributed approximately according to a family of probability distributions—that is, power laws—based on our analysis of culture-confirmed cases in a national surveillance system (1). Hedberg et al. suggest restricting analyses by common detection pathways, hypothesizing that distinct pathways may follow distinct power law distributions (2). That is a notable idea based on real surveillance concerns, but it is challenging to explore in the available data. Analyses of the distribution of events, which vary by many orders of magnitude, require large amounts of data because identifying the underlying distribution is primarily based on the distribution of the rarer events in the tails of the distribution. Furthermore, the detection pathway is not generally contained in the surveillance record.

Figure

Log-log scale of foodborne Salmonella and norovirus outbreak size versus frequency from a power law for estimating underdetection of foodborne outbreaks, United States. Actual Salmonella (blue points) versus expected Salmonella (blue line) using laboratory-confirmed cases (minimum threshold 21, 90% credible interval [CrI] 11–43; slope 2.2, 90% CrI 2.1–2.5) and actual norovirus (red points) versus expected norovirus (red line) using estimated cases (minimum threshold 42, 90% CrI 22–123; slope 2.6, 90% CrI 2.3–3.3).

Figure. Log-log scale of foodborne Salmonella and norovirus outbreak size versus frequency from a power law for estimating underdetection of foodborne outbreaks, United States. Actual Salmonella(blue points)...

However, the reported estimated case count is available from the surveillance record and likely captures aspects of the distinct pathways noted by Hedberg et al. Notable variation exists in their reporting over time and by jurisdiction and is, in part, why we did not choose estimated cases for our primary analysis. We did explore the power law fit of 2 very common pathogens, Salmonella and norovirus, which Hedberg et al. noted are likely to have different pathways for how cases are reported to surveillance. The fit of confirmed Salmonella cases and estimated norovirus cases appear consistent with approximate power law distributions (Figure): Salmonella Kolmogorov-Smirnov statistic (KS) = 0.028, p = 0.607; norovirus KS = 0.036, p = 0.437. The fit of estimated cases overall also appears consistent with an approximate power law distribution (KS = 0.026, p = 0.191; minimum threshold 80, 90% credible interval 49–117; slope 2.64, 90% credible interval 2.50–2.79), which further supports the validity of power laws as descriptors of outbreak size, regardless of the underlying mechanism of discovery and reporting.

Top

Laura Ford¹

, Julie L. Self¹, Karen K. Wong, Robert M. Hoekstra, Robert V. Tauxe, Erica Billig Rose, and Beau B. Bruce

Author affiliation: Centers for Disease Control and Prevention, Atlanta, Georgia, USA

Top

References

Ford L, Self JL, Wong KK, Hoekstra RM, Tauxe RV, Rose EB, et al. Power law for estimating underdetection of foodborne disease outbreaks, United States. Emerg Infect Dis. 2023;30:337–40. DOIPubMedGoogle Scholar
Hedberg CW, Firestone MJ, Kim TN, Edmundson AR, Bender JB. Foodborne outbreak size is dependent on how the outbreak is detected. Emerg Infect Dis. 2024;30:2451.

Top

Figure

Figure. Log-log scale of foodborne Salmonella and norovirus outbreak size versus frequency from a power law for estimating underdetection of foodborne outbreaks, United States. Actual Salmonella (blue points) versus expected...

Top

Cite This Article

DOI: 10.3201/eid3011.241351

Original Publication Date: October 18, 2024

¹These first authors contributed equally to this article.

Related Links

More Letter Articles

Top

Table of Contents – Volume 30, Number 11—November 2024

EID Search Options
Advanced Article Search – Search articles by author and/or keyword.
Articles by Country Search – Search articles by the topic country.
Article Type Search – Search articles by article type and issue.

Top

Comments

Please use the form below to submit correspondence to the authors or contact them at the following address:

Laura Ford, Centers for Disease Control and Prevention, 1600 Clifton Rd NE, Mailstop H24-11, Atlanta, GA 30329-4017, USA

Top

Page created: October 01, 2024

Page updated: October 23, 2024

Page reviewed: October 23, 2024

The conclusions, findings, and opinions expressed by authors contributing to this journal do not necessarily reflect the official position of the U.S. Department of Health and Human Services, the Public Health Service, the Centers for Disease Control and Prevention, or the authors' affiliated institutions. Use of trade names is for identification only and does not imply endorsement by any of the groups named above.

EID	Ford L, Self JL, Wong KK, Hoekstra RM, Tauxe RV, Rose E, et al. Estimating Underdetection of Foodborne Disease Outbreaks (Response). Emerg Infect Dis. 2024;30(11):2452. https://doi.org/10.3201/eid3011.241351
AMA	Ford L, Self JL, Wong KK, et al. Estimating Underdetection of Foodborne Disease Outbreaks (Response). Emerging Infectious Diseases. 2024;30(11):2452. doi:10.3201/eid3011.241351.
APA	Ford, L., Self, J. L., Wong, K. K., Hoekstra, R. M., Tauxe, R. V., Rose, E....Bruce, B. B. (2024). Estimating Underdetection of Foodborne Disease Outbreaks (Response). Emerging Infectious Diseases, 30(11), 2452. https://doi.org/10.3201/eid3011.241351.

Volume 30, Number 11—November 2024

Letter