Accepted for/Published in: JMIR Public Health and Surveillance
Date Submitted: Dec 14, 2018
Open Peer Review Period: Dec 14, 2018 - Nov 30, 2018
Date Accepted: Jan 18, 2019
Date Submitted to PubMed: Feb 14, 2019
(closed for review but you can still tweet)
Google Trends predicts present and future plague cases during the plague outbreak in Madagascar
ABSTRACT
Background:
Plague is a highly infectious zoonotic disease caused by the bacillus Yersinia pestis. Three major forms of the disease are known: bubonic, septicemic, and pneumonic plague. Though being strictly related to past history, plague still represents a global public health concern. Cases of plague continue, indeed, to be reported worldwide. In the last months, pneumonic plague cases have been reported in Madagascar. However, despite such long-standing and rich history, it is rather difficult to get a comprehensive overview of the general situation. Within the framework of e-health, in which people more and more surf the Internet looking for health-related material, new information and communication technologies (ICTs) could enable researchers to get a wealth of data, which could complement traditional surveillance of infectious diseases.
Objective:
In the current work, we aimed to assess public reaction regarding the recent plague outbreak in Madagascar by quantitatively characterizing this interest.
Methods:
We captured public interest by Google Trends (GT) and correlated it to epidemiological “real-world” data (in terms of incidence rate and spread pattern).
Results:
Statistically significant positive correlations were found between GT search data and confirmed (R2=0.549), suspected (R2=0.265) and probable (R2=0.518) cases. From a geospatial standpoint, plague-related GT queries were concentrated in Toamasina (100%), Toliara (68%), and Antananarivo (65%). Concerning the forecasting models, the 1-day lag model was selected as the best regression model.
Conclusions:
This earlier digital reaction could potentially contribute to better management of outbreak, for example, by designing ad hoc interventions that could contain the infection both locally and at international level, reducing its spreading.
Citation
Per the author's request the PDF is not available.
Copyright
© The authors. All rights reserved. This is a privileged document currently under peer-review/community review (or an accepted/rejected manuscript). Authors have provided JMIR Publications with an exclusive license to publish this preprint on it's website for review and ahead-of-print citation purposes only. While the final peer-reviewed paper may be licensed under a cc-by license on publication, at this stage authors and publisher expressively prohibit redistribution of this draft paper other than for review purposes.