Author: Muller, Johannes; Hosel, Volker
Title: Contact Tracing&Super-Spreaders in the Branching-Process Model Cord-id: johsudy9 Document date: 2020_10_10
ID: johsudy9
Snippet: In recent years, it became clear that super-spreader events play an important role, particularly in the spread of airborne infection. We investigate a novel model for super-spreader events, not based on the contact structure but on a random contact rate: Many individuals become infected synchronously in single contact events. We use the branching-process approach for contact tracing to analyze the impact of super-spreader events on the effect of contact tracing. Roughly speaking, we find that co
Document: In recent years, it became clear that super-spreader events play an important role, particularly in the spread of airborne infection. We investigate a novel model for super-spreader events, not based on the contact structure but on a random contact rate: Many individuals become infected synchronously in single contact events. We use the branching-process approach for contact tracing to analyze the impact of super-spreader events on the effect of contact tracing. Roughly speaking, we find that contact tracing is more efficient in the presence of super-spreaders if the fraction of symptomatics is small, the tracing probability is high, or the latency period is distinctively larger than the incubation period. In other cases, the effect of contact tracing can be decreased by super-spreaders. Numerical analysis with parameters suited for SARS-CoV-2 indicates that super-spreaders do not decrease the effect of contact tracing crucially in case of that infection.
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