Susceptible host dynamics explain pathogen resilience to perturbations

A major priority for epidemiological research in a time of anthropogenic change is understanding how infectious disease dynamics respond to perturbations. Interventions to slow the spread of SARS-CoV-2 significantly disrupted the transmission of other human pathogens. As interventions lifted, whether and when respiratory pathogens would eventually return to their pre-pandemic dynamics remains to be answered. Here, we present a framework for estimating pathogen resilience based on how fast epidemic patterns approach their pre-pandemic, endemic dynamics and analyze relevant time series data from Hong Kong, Canada, Korea, and the US. By quantifying the resilience of common respiratory pathogens, we are able to predict when each pathogen will eventually return to its pre-pandemic dynamics. Our predictions closely match the observed deviations (or lack thereof) from the pre-COVID dynamics of respiratory pathogens. Discrepancies between predicted and observed dynamics indicate the long-term impacts of pandemic perturbations, suggesting that some pathogens may be converging to a different endemic cycle. Finally, we show that the replenishment rate of the susceptible population is a key determinant of pathogen resilience, which in turn determines the sensitivity of a system to stochastic perturbations. Overall, our analysis highlights the persistent nature of common respiratory pathogens compared to vaccine-preventable infections, such as measles.