2021 journal article

Inferring environmental transmission using phylodynamics: a case-study using simulated evolution of an enteric pathogen

JOURNAL OF THE ROYAL SOCIETY INTERFACE, 18(179).

By: D. Dawson n, D. Rasmussen n, X. Peng n  & C. Lanzas n 

co-author countries: United States of America πŸ‡ΊπŸ‡Έ
author keywords: environmental transmission; disease transmission modelling; phylodynamics; whole-genome sequencing
MeSH headings : Epidemics; Phylogeny; Probability
Source: Web Of Science
Added: June 28, 2021

Indirect (environmental) and direct (host-host) transmission pathways cannot easily be distinguished when they co-occur in epidemics, particularly when they occur on similar time scales. Phylodynamic reconstruction is a potential approach to this problem that combines epidemiological information (temporal, spatial information) with pathogen whole-genome sequencing data to infer transmission trees of epidemics. However, factors such as differences in mutation and transmission rates between host and non-host environments may obscure phylogenetic inference from these methods. In this study, we used a network-based transmission model that explicitly models pathogen evolution to simulate epidemics with both direct and indirect transmission. Epidemics were simulated according to factorial combinations of direct/indirect transmission proportions, host mutation rates and conditions of environmental pathogen growth. Transmission trees were then reconstructed using the phylodynamic approach SCOTTI (structured coalescent transmission tree inference) and evaluated. We found that although insufficient diversity sets a lower bound on when accurate phylodynamic inferences can be made, transmission routes and assumed pathogen lifestyle affected pathogen population structure and subsequently influenced both reconstruction success and the likelihood of direct versus indirect pathways being reconstructed. We conclude that prior knowledge of the likely ecology and population structure of pathogens in host and non-host environments is critical to fully using phylodynamic techniques.