Despite high routine vaccination coverage, pertussis has become the most prevalent vaccine-preventable disease in many countries, since the 1990s. While a plethora of candidate explanations for this resurgence remain hotly debated, two main ideas focus on vaccine driven bacterial adaptation and on the change from whole cell to acellular vaccines. We employ generalized linear models within a Bayesian coalescent framework to formally tests drivers of evolution in Bordetella pertussis populations, and the role of allele shifts in the resurgence of pertussis.

Vaccine hesitancy poses a clear barrier to covering the last mile in global disease eradication efforts for VPDs such as measles and pertussis. In this ongoing project we aim to characterize disease dynamics and vaccine coverage, estimate the epidemiological impact of vaccine hesitancy, and identify the spatial scale of herd immunity.

Formulation of mathematical models to confront them with age stratified incidence data to learn about the mechanisms that operate in the dynamics of infectious diseases and the consequences of vaccination policies. Currently, I'm using England & Wales and particular states in the US incidence times series of pertussis for different vaccine eras.

The historical pertussis literature indicates that maternal vaccination may potentially lead to a reduction in the efficacy of routine infant immunization. We studied the possible downstream consequences of maternal immunization.

Computationally test the hypothesis that increased HA binding avidity is associated with increased rates of Oseltamivir resistance.

Emergence and pathogenesis of influenza viruses, with a focus on identification of attributes which influence tropism, pathogenicity, and evolution of influenza viruses.

Epidemiological impact of control & immunisation activities on within-herd bovine tuberculosis outbreaks

In temperate regions the seasonal pattern of plant productivity and senescence is influenced strongly by the prevailing weather. For herbivores the onset of spring is particularly important for survival and growth, while subsequent plant production will potentially influence lactation and recovery of body mass before the next breeding season.