Add to ORKGHeterogeneity in individual-level transmissibility can be quantified by the dispersion parameter k of the offspring distribution. Quantifying heterogeneity is important as it affects other parameter estimates, it modulates the degree of unpredictability of an epidemic, and it needs to be accounted for in models of infection control. Aggregated data such as incidence time series are often not sufficiently informative to estimate k. Incorporating phylogenetic analysis can help to estimate k concurrently with other epidemiological parameters. We have developed an inference framework that uses particle Markov Chain Monte Carlo to estimate k and other epidemiological parameters using both incidence time series and the pathogen phylogeny. Using t...
This is the final version. Available on open access from the Royal Society via the DOI in this recor...
Quantifying epidemiological dynamics is crucial for understanding and forecasting the spread of an e...
The transmission heterogeneity of an epidemic is associated with a complex mixture of host, pathogen...
Abstract Heterogeneity in individual-level transmissibility can be quantified by the dispersion para...
Heterogeneity in individual-level transmissibility can be quantified by the dispersion parameter k o...
While infectious disease outbreaks are often summarised by population averages such as the reproduct...
The control, prediction, and understanding of epidemiological processes require insight into how inf...
Inferring the dynamics of pathogen transmission during an outbreak is an important problem in infect...
Genetic sequences from pathogens can provide information about infectious disease dynamics that may ...
Spread of HIV typically involves uneven transmission patterns where some individuals spread to a lar...
The HIV-1 epidemic in Europe is primarily sustained by a dynamic topology of sexual interactions amo...
Modern phylodynamic methods interpret an inferred phylogenetic tree as a partial transmission chain ...
Population genetic modeling can enhance Bayesian phylogenetic inference by providing a realistic pri...
Population genetic modeling can enhance Bayesian phylogenetic inference by providing a realistic pri...
Phylodynamic analyses using pathogen genetic data have become popular for making epidemiological inf...
This is the final version. Available on open access from the Royal Society via the DOI in this recor...
Quantifying epidemiological dynamics is crucial for understanding and forecasting the spread of an e...
The transmission heterogeneity of an epidemic is associated with a complex mixture of host, pathogen...
Abstract Heterogeneity in individual-level transmissibility can be quantified by the dispersion para...
Heterogeneity in individual-level transmissibility can be quantified by the dispersion parameter k o...
While infectious disease outbreaks are often summarised by population averages such as the reproduct...
The control, prediction, and understanding of epidemiological processes require insight into how inf...
Inferring the dynamics of pathogen transmission during an outbreak is an important problem in infect...
Genetic sequences from pathogens can provide information about infectious disease dynamics that may ...
Spread of HIV typically involves uneven transmission patterns where some individuals spread to a lar...
The HIV-1 epidemic in Europe is primarily sustained by a dynamic topology of sexual interactions amo...
Modern phylodynamic methods interpret an inferred phylogenetic tree as a partial transmission chain ...
Population genetic modeling can enhance Bayesian phylogenetic inference by providing a realistic pri...
Population genetic modeling can enhance Bayesian phylogenetic inference by providing a realistic pri...
Phylodynamic analyses using pathogen genetic data have become popular for making epidemiological inf...
This is the final version. Available on open access from the Royal Society via the DOI in this recor...
Quantifying epidemiological dynamics is crucial for understanding and forecasting the spread of an e...
The transmission heterogeneity of an epidemic is associated with a complex mixture of host, pathogen...