Should public health policy exempt cases with low viral load from isolation during an epidemic?: a modelling study ...

During the COVID-19 pandemic, case isolation emerged as a key non-pharmaceutical intervention in pandemic response. Its effectiveness hinges on the timing of isolation, which is often dictated by the onset of contagiousness. While minimizing isolation delays is crucial, the impact of evolving epidemic dynamics, such as changes in viral load distributions among cases, is less understood. These dynamics could inform more efficient isolation strategies. We developed a multi-scale agent-based model to assess isolation policies that consider viral loads. Our model compares the outcomes of universal isolation with strategies that exempt low viral load cases post-peak. We found that most low viral load cases identified after the peak are less contagious, raising the question of their need for isolation. Our analysis reveals that exempting these individuals slightly increases new infections and, unexpectedly, reduces efficiency, defined as infections averted per isolation. These results advise caution with adaptive ...