Immune correlates analysis of a phase 3 trial of the AZD1222 (ChAdOx1 nCoV-19) vaccine

被引:0
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作者
David Benkeser
Youyi Fong
Holly E. Janes
Elizabeth J. Kelly
Ian Hirsch
Stephanie Sproule
Ann Marie Stanley
Jill Maaske
Tonya Villafana
Christopher R. Houchens
Karen Martins
Lakshmi Jayashankar
Flora Castellino
Victor Ayala
Christos J. Petropoulos
Andrew Leith
Deanne Haugaard
Bill Webb
Yiwen Lu
Chenchen Yu
Bhavesh Borate
Lars W. P. van der Laan
Nima S. Hejazi
Lindsay N. Carpp
April K. Randhawa
Michele P. Andrasik
James G. Kublin
Margaret Brewinski Isaacs
Mamodikoe Makhene
Tina Tong
Merlin L. Robb
Lawrence Corey
Kathleen M. Neuzil
Dean Follmann
Corey Hoffman
Ann R. Falsey
Magdalena Sobieszczyk
Richard A. Koup
Ruben O. Donis
Peter B. Gilbert
机构
[1] Rollins School of Public Health,Department of Biostatistics and Bioinformatics
[2] Emory University,Vaccine and Infectious Disease Division
[3] Fred Hutchinson Cancer Center,Public Health Sciences Division
[4] Fred Hutchinson Cancer Center,Translational Medicine, Vaccines & Immune Therapies
[5] BioPharmaceuticals R&D,Department of Statistics
[6] AstraZeneca,Department of Biostatistics
[7] Biometrics,US Military HIV Research Program
[8] Vaccines & Immune Therapies,Department of Laboratory Medicine and Pathology
[9] BioPharmaceuticals R&D,Center for Vaccine Development and Global Health
[10] AstraZeneca,Biostatistics Research Branch, National Institute of Allergy and Infectious Diseases
[11] Biometrics,Division of Infectious Diseases, Department of Medicine
[12] Vaccines & Immune Therapies,Division of Infectious Diseases, Department of Medicine
[13] BioPharmaceuticals R&D,Vaccine Research Center, National Institute of Allergy and Infectious Diseases
[14] AstraZeneca,Department of Biostatistics
[15] Clinical Development,undefined
[16] Vaccines & Immune Therapies,undefined
[17] BioPharmaceuticals R&D,undefined
[18] AstraZeneca,undefined
[19] Biomedical Advanced Research and Development Authority,undefined
[20] Administration for Strategic Preparedness and Response,undefined
[21] Department of Health and Human Services,undefined
[22] LabCorp-Monogram Biosciences,undefined
[23] Nexelis,undefined
[24] University of Washington,undefined
[25] T.H. Chan School of Public Health,undefined
[26] Harvard University,undefined
[27] Division of AIDS,undefined
[28] National Institute of Allergy and Infectious Diseases,undefined
[29] Division of Microbiology and Infectious Diseases,undefined
[30] National Institute of Allergy and Infectious Diseases,undefined
[31] National Institutes of Health,undefined
[32] Vaccine Translational Research Branch,undefined
[33] National Institute of Allergy and Infectious Diseases,undefined
[34] National Institutes of Health,undefined
[35] Walter Reed Army Institute of Research,undefined
[36] University of Washington,undefined
[37] University of Maryland School of Medicine,undefined
[38] National Institutes of Health,undefined
[39] University of Rochester,undefined
[40] Columbia University Irving Medical Center and New York-Presbyterian Hospital,undefined
[41] National Institutes of Health,undefined
[42] School of Public Health,undefined
[43] University of Washington,undefined
来源
npj Vaccines | / 8卷
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摘要
In the phase 3 trial of the AZD1222 (ChAdOx1 nCoV-19) vaccine conducted in the U.S., Chile, and Peru, anti-spike binding IgG concentration (spike IgG) and pseudovirus 50% neutralizing antibody titer (nAb ID50) measured four weeks after two doses were assessed as correlates of risk and protection against PCR-confirmed symptomatic SARS-CoV-2 infection (COVID-19). These analyses of SARS-CoV-2 negative participants were based on case-cohort sampling of vaccine recipients (33 COVID-19 cases by 4 months post dose two, 463 non-cases). The adjusted hazard ratio of COVID-19 was 0.32 (95% CI: 0.14, 0.76) per 10-fold increase in spike IgG concentration and 0.28 (0.10, 0.77) per 10-fold increase in nAb ID50 titer. At nAb ID50 below the limit of detection (< 2.612 IU50/ml), 10, 100, and 270 IU50/ml, vaccine efficacy was −5.8% (−651%, 75.6%), 64.9% (56.4%, 86.9%), 90.0% (55.8%, 97.6%) and 94.2% (69.4%, 99.1%). These findings provide further evidence towards defining an immune marker correlate of protection to help guide regulatory/approval decisions for COVID-19 vaccines.
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