Waning of SARS-CoV-2 booster viral-load reduction effectiveness

The BNT162b2 COVID-19 vaccine has been shown to reduce viral load of breakthrough infections (BTIs). Here, analyzing viral loads of BTIs post third vaccine shot, Levine-Tiefenbrun et al. show waning of the booster's effectiveness in reducing infectiousness within months, mirroring the rate and magnitude of decline observed post the second shot. The BNT162b2 COVID-19 vaccine has been shown to reduce viral load of breakthrough infections (BTIs), an important factor affecting infectiousness. This viral-load protective effect has been waning with time post the second vaccine and later restored with a booster shot. It is currently unclear though for how long this regained effectiveness lasts. Analyzing Ct values of SARS-CoV-2 qRT-PCR tests of over 22,000 infections during a Delta-variant-dominant period in Israel, we find that this viral-load reduction effectiveness significantly declines within months post the booster dose. Adjusting for age, sex and calendric date, Ct values of RdRp gene initially increases by 2.7 [CI: 2.3-3.0] relative to unvaccinated in the first month post the booster dose, yet then decays to a difference of 1.3 [CI: 0.7-1.9] in the second month and becomes small and insignificant in the third to fourth months. The rate and magnitude of this post-booster decline in viral-load reduction effectiveness mirror those observed post the second vaccine. These results suggest rapid waning of the booster's effectiveness in reducing infectiousness, possibly affecting community-level spread of the virus.

Automated summary

The effectiveness of the booster shot in reducing infectiousness decreases rapidly over time, possibly affecting the community-level spread of the virus.