AI Article Synopsis
- - Bayesian phylodynamic models have revolutionized epidemiology by helping researchers track how pathogens spread across different geographic areas, though they rely heavily on initial assumptions about model parameters.
- - Default prior assumptions in these models often lead to unrealistic interpretations regarding pathogen dispersal rates, routes, and the origins of outbreaks, which can skew research findings.
- - The authors suggest improving these models by developing more biologically plausible prior assumptions to enhance the accuracy of epidemiological studies and better inform disease surveillance and monitoring strategies.
Article Abstract
Epidemiology has been transformed by the advent of Bayesian phylodynamic models that allow researchers to infer the geographic history of pathogen dispersal over a set of discrete geographic areas [1, 2]. These models provide powerful tools for understanding the spatial dynamics of disease outbreaks, but contain many parameters that are inferred from minimal geographic information (i.e., the single area in which each pathogen was sampled). Consequently, inferences under these models are inherently sensitive to our prior assumptions about the model parameters. Here, we demonstrate that the default priors used in empirical phylodynamic studies make strong and biologically unrealistic assumptions about the underlying geographic process. We provide empirical evidence that these unrealistic priors strongly (and adversely) impact commonly reported aspects of epidemiological studies, including: 1) the relative rates of dispersal between areas; 2) the importance of dispersal routes for the spread of pathogens among areas; 3) the number of dispersal events between areas, and; 4) the ancestral area in which a given outbreak originated. We offer strategies to avoid these problems, and develop tools to help researchers specify more biologically reasonable prior models that will realize the full potential of phylodynamic methods to elucidate pathogen biology and, ultimately, inform surveillance and monitoring policies to mitigate the impacts of disease outbreaks.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10089176 | PMC |
| http://dx.doi.org/10.1073/pnas.2213913120 | DOI Listing |
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