Inferring the dynamics of pathogen transmission during an outbreak is an important problem in infectious disease epidemiology. In mathematical epidemiology, estimates are often informed by time series of confirmed cases, while in phylodynamics genetic sequences of the pathogen, sampled through time, are the primary data source. Each type of data provides different, and potentially complementary, insight. Recent studies have recognised that combining data sources can improve estimates of the transmission rate and the number of infected individuals. However, inference methods are typically highly specialised and field-specific and are either computationally prohibitive or require intensive simulation, limiting their real-time utility. We pres...
Phylodynamics- the field aiming to quantitatively integrate the ecological and evolutionary dynamics...
Phylodynamics requires an interdisciplinary understanding of phylogenetics, epidemiology, and statis...
Heterogeneous populations can lead to important differences in birth and death rates across a phylog...
Quantifying epidemiological dynamics is crucial for understanding and forecasting the spread of an e...
Modern phylodynamic methods interpret an inferred phylogenetic tree as a partial transmission chain ...
Phylogenetic trees show the evolutionary relationships between individuals, populations or species a...
Population genetic modeling can enhance Bayesian phylogenetic inference by providing a realistic pri...
Phylodynamic models generally aim at jointly inferring phylogenetic relationships, model parameters,...
Population genetic modeling can enhance Bayesian phylogenetic inference by providing a realistic pri...
30 pages, 2 figuresThe reconstruction of phylogenetic trees based on viral genetic sequence data seq...
Genetic sequences from pathogens can provide information about infectious disease dynamics that may ...
Epidemiological processes leave a fingerprint in the pattern of genetic structure of virus populatio...
Phylodynamic models use pathogen genome sequence data to infer epidemiological dynamics. With the in...
Epidemiological processes leave a fingerprint in the pattern of genetic structure of virus populatio...
Abstract Heterogeneity in individual-level transmissibility can be quantified by the dispersion para...
Phylodynamics- the field aiming to quantitatively integrate the ecological and evolutionary dynamics...
Phylodynamics requires an interdisciplinary understanding of phylogenetics, epidemiology, and statis...
Heterogeneous populations can lead to important differences in birth and death rates across a phylog...
Quantifying epidemiological dynamics is crucial for understanding and forecasting the spread of an e...
Modern phylodynamic methods interpret an inferred phylogenetic tree as a partial transmission chain ...
Phylogenetic trees show the evolutionary relationships between individuals, populations or species a...
Population genetic modeling can enhance Bayesian phylogenetic inference by providing a realistic pri...
Phylodynamic models generally aim at jointly inferring phylogenetic relationships, model parameters,...
Population genetic modeling can enhance Bayesian phylogenetic inference by providing a realistic pri...
30 pages, 2 figuresThe reconstruction of phylogenetic trees based on viral genetic sequence data seq...
Genetic sequences from pathogens can provide information about infectious disease dynamics that may ...
Epidemiological processes leave a fingerprint in the pattern of genetic structure of virus populatio...
Phylodynamic models use pathogen genome sequence data to infer epidemiological dynamics. With the in...
Epidemiological processes leave a fingerprint in the pattern of genetic structure of virus populatio...
Abstract Heterogeneity in individual-level transmissibility can be quantified by the dispersion para...
Phylodynamics- the field aiming to quantitatively integrate the ecological and evolutionary dynamics...
Phylodynamics requires an interdisciplinary understanding of phylogenetics, epidemiology, and statis...
Heterogeneous populations can lead to important differences in birth and death rates across a phylog...