SARS-CoV-2 variant Delta rapidly displaced variant Alpha in the United States and led to higher viral loads

Alexandre Bolze; Shishi Luo; Simon White; Elizabeth T. Cirulli; Dana Wyman; Andrew Dei Rossi; Henrique Machado; Tyler Cassens; Sharoni Jacobs; Kelly M. Schiabor Barrett; Francisco Tanudjaja; Kevin Tsan; Jason Nguyen; Jimmy M. Ramirez; Efren Sandoval; Xueqing Wang; David Wong; David G. Becker; Marc Laurent; James T. Lu; Magnus Isaksson; Nicole Washington; William Lee

doi:10.1016/j.xcrm.2022.100564

SARS-CoV-2 variant Delta rapidly displaced variant Alpha in the United States and led to higher viral loads

Alexandre Bolze(Helix (United States)), Shishi Luo(Helix (United States)), Simon White(Helix (United States)), Elizabeth T. Cirulli(Helix (United States)), Dana Wyman(Helix (United States)), Andrew Dei Rossi(Helix (United States)), Henrique Machado(Helix (United States)), Tyler Cassens(Helix (United States)), Sharoni Jacobs(Helix (United States)), Kelly M. Schiabor Barrett(Helix (United States)), Francisco Tanudjaja(Helix (United States)), Kevin Tsan(Helix (United States)), Jason Nguyen(Helix (United States)), Jimmy M. Ramirez(Helix (United States)), Efren Sandoval(Helix (United States)), Xueqing Wang(Helix (United States)), David Wong(Helix (United States)), David G. Becker(Helix (United States)), Marc Laurent(Helix (United States)), James T. Lu(Helix (United States)), Magnus Isaksson(Helix (United States)), Nicole Washington(Helix (United States)), William Lee(Helix (United States))

Cell Reports Medicine

March 1, 2022

10.1016/j.xcrm.2022.100564

Cited by 90Open Access

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Abstract

We report on the sequencing of 74,348 SARS-CoV-2 positive samples collected across the United States and show that the Delta variant, first detected in the United States in March 2021, made up the majority of SARS-CoV-2 infections by July 1, 2021 and accounted for >99.9% of the infections by September 2021. Not only did Delta displace variant Alpha, which was the dominant variant at the time, it also displaced the Gamma, Iota, and Mu variants. Through an analysis of quantification cycle (Cq) values, we demonstrate that Delta infections tend to have a 1.7× higher viral load compared to Alpha infections (a decrease of 0.8 Cq) on average. Our results are consistent with the hypothesis that the increased transmissibility of the Delta variant could be due to the ability of the Delta variant to establish a higher viral load earlier in the infection as compared to the Alpha variant.

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