Applying two approaches to detect unmeasured confounding due to time-varying variables in a self-controlled risk interval design evaluating COVID-19 vaccine safety signals, using myocarditis as a case example

Sophie H Bots; Svetlana Belitser; Rolf H H Groenwold; Carlos E Durán; Judit Riera-Arnau; Anna Schultze; Davide Messina; Elena Segundo; Ian Douglas; Juan José Carreras; Patricia Garcia-Poza; Rosa Gini; Consuelo Huerta; Mar Martín-Pérez; Ivonne Martin; Olga Paoletti; Carlo Alberto Bissacco; Elisa Correcher-Martínez; Patrick Souverein; Arantxa Urchuequía; Felipe Villalobos; Miriam C J M Sturkenboom; Olaf H Klungel

doi:10.1093/aje/kwae172

Applying two approaches to detect unmeasured confounding due to time-varying variables in a self-controlled risk interval design evaluating COVID-19 vaccine safety signals, using myocarditis as a case example

Sophie H Bots, Svetlana Belitser, Rolf H H Groenwold, Carlos E Durán, Judit Riera-Arnau, Anna Schultze, Davide Messina, Elena Segundo, Ian Douglas, Juan José Carreras, Patricia Garcia-Poza, Rosa Gini, Consuelo Huerta, Mar Martín-Pérez, Ivonne Martin, Olga Paoletti, Carlo Alberto Bissacco, Elisa Correcher-Martínez, Patrick Souverein, Arantxa UrchuequíaFelipe Villalobos, Miriam C J M Sturkenboom, Olaf H Klungel

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Abstract

We test the robustness of the self-controlled risk interval (SCRI) design in a setting where time between doses may introduce time-varying confounding, using both negative control outcomes (NCOs) and quantitative bias analysis (QBA). All vaccinated cases identified from 5 European databases between September 1, 2020, and end of data availability were included. Exposures were doses 1-3 of the Pfizer, Moderna, AstraZeneca, and Janssen COVID-19 vaccines; outcomes were myocarditis and, as the NCO, otitis externa. The SCRI used a 60-day control window and dose-specific 28-day risk windows, stratified by vaccine brand and adjusted for calendar time. The QBA included two scenarios: (1) baseline probability of the confounder was higher in the control window and (2) vice versa. The NCO was not associated with any of the COVID-19 vaccine types or doses except Moderna dose 1 (IRR = 1.09; 95% CI 1.01-1.09). The QBA suggested that even the strongest literature-reported confounder (COVID-19; RR for myocarditis = 18.3) could only explain away part of the observed effect, from IRR = 3 to IRR = 1.40. The SCRI seems robust to unmeasured confounding in the COVID-19 setting, although a strong unmeasured confounder could bias the observed effect upward. Replication of our findings for other safety signals would strengthen this conclusion. This article is part of a Special Collection on Pharmacoepidemiology.

Original language	English
Article number	doi.org/10.1093/aje/kwae172
Pages (from-to)	208-219
Number of pages	12
Journal	American Journal of Epidemiology
Volume	194
Issue number	1
Early online date	3 Jul 2024
DOIs	https://doi.org/10.1093/aje/kwae172
Publication status	Published - 8 Jan 2025

Keywords

COVID-19 vaccine safety
negative controls
pharmacoepidemiology
quantitative bias analysis
self-controlled risk interval design

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Bots, S. H., Belitser, S., Groenwold, R. H. H., Durán, C. E., Riera-Arnau, J., Schultze, A., Messina, D., Segundo, E., Douglas, I., Carreras, J. J., Garcia-Poza, P., Gini, R., Huerta, C., Martín-Pérez, M., Martin, I., Paoletti, O., Bissacco, C. A., Correcher-Martínez, E., Souverein, P., ... Klungel, O. H. (2025). Applying two approaches to detect unmeasured confounding due to time-varying variables in a self-controlled risk interval design evaluating COVID-19 vaccine safety signals, using myocarditis as a case example. American Journal of Epidemiology, 194(1), 208-219. Article doi.org/10.1093/aje/kwae172. https://doi.org/10.1093/aje/kwae172

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title = "Applying two approaches to detect unmeasured confounding due to time-varying variables in a self-controlled risk interval design evaluating COVID-19 vaccine safety signals, using myocarditis as a case example",

abstract = "We test the robustness of the self-controlled risk interval (SCRI) design in a setting where time between doses may introduce time-varying confounding, using both negative control outcomes (NCOs) and quantitative bias analysis (QBA). All vaccinated cases identified from 5 European databases between September 1, 2020, and end of data availability were included. Exposures were doses 1-3 of the Pfizer, Moderna, AstraZeneca, and Janssen COVID-19 vaccines; outcomes were myocarditis and, as the NCO, otitis externa. The SCRI used a 60-day control window and dose-specific 28-day risk windows, stratified by vaccine brand and adjusted for calendar time. The QBA included two scenarios: (1) baseline probability of the confounder was higher in the control window and (2) vice versa. The NCO was not associated with any of the COVID-19 vaccine types or doses except Moderna dose 1 (IRR = 1.09; 95% CI 1.01-1.09). The QBA suggested that even the strongest literature-reported confounder (COVID-19; RR for myocarditis = 18.3) could only explain away part of the observed effect, from IRR = 3 to IRR = 1.40. The SCRI seems robust to unmeasured confounding in the COVID-19 setting, although a strong unmeasured confounder could bias the observed effect upward. Replication of our findings for other safety signals would strengthen this conclusion. This article is part of a Special Collection on Pharmacoepidemiology.",

keywords = "COVID-19 vaccine safety, negative controls, pharmacoepidemiology, quantitative bias analysis, self-controlled risk interval design",

author = "Bots, {Sophie H} and Svetlana Belitser and Groenwold, {Rolf H H} and Dur{\'a}n, {Carlos E} and Judit Riera-Arnau and Anna Schultze and Davide Messina and Elena Segundo and Ian Douglas and Carreras, {Juan Jos{\'e}} and Patricia Garcia-Poza and Rosa Gini and Consuelo Huerta and Mar Mart{\'i}n-P{\'e}rez and Ivonne Martin and Olga Paoletti and Bissacco, {Carlo Alberto} and Elisa Correcher-Mart{\'i}nez and Patrick Souverein and Arantxa Urchuequ{\'i}a and Felipe Villalobos and Sturkenboom, {Miriam C J M} and Klungel, {Olaf H}",

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doi = "10.1093/aje/kwae172",

language = "English",

volume = "194",

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Bots, SH, Belitser, S, Groenwold, RHH, Durán, CE, Riera-Arnau, J, Schultze, A, Messina, D, Segundo, E, Douglas, I, Carreras, JJ, Garcia-Poza, P, Gini, R, Huerta, C, Martín-Pérez, M, Martin, I, Paoletti, O, Bissacco, CA, Correcher-Martínez, E, Souverein, P, Urchuequía, A, Villalobos, F, Sturkenboom, MCJM & Klungel, OH 2025, 'Applying two approaches to detect unmeasured confounding due to time-varying variables in a self-controlled risk interval design evaluating COVID-19 vaccine safety signals, using myocarditis as a case example', American Journal of Epidemiology, vol. 194, no. 1, doi.org/10.1093/aje/kwae172, pp. 208-219. https://doi.org/10.1093/aje/kwae172

Applying two approaches to detect unmeasured confounding due to time-varying variables in a self-controlled risk interval design evaluating COVID-19 vaccine safety signals, using myocarditis as a case example. / Bots, Sophie H; Belitser, Svetlana; Groenwold, Rolf H H et al.
In: American Journal of Epidemiology, Vol. 194, No. 1, doi.org/10.1093/aje/kwae172, 08.01.2025, p. 208-219.

Research output: Contribution to journal › Article › Academic › peer-review

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T1 - Applying two approaches to detect unmeasured confounding due to time-varying variables in a self-controlled risk interval design evaluating COVID-19 vaccine safety signals, using myocarditis as a case example

AU - Bots, Sophie H

AU - Belitser, Svetlana

AU - Groenwold, Rolf H H

AU - Durán, Carlos E

AU - Riera-Arnau, Judit

AU - Schultze, Anna

AU - Messina, Davide

AU - Segundo, Elena

AU - Douglas, Ian

AU - Carreras, Juan José

AU - Garcia-Poza, Patricia

AU - Gini, Rosa

AU - Huerta, Consuelo

AU - Martín-Pérez, Mar

AU - Martin, Ivonne

AU - Paoletti, Olga

AU - Bissacco, Carlo Alberto

AU - Correcher-Martínez, Elisa

AU - Souverein, Patrick

AU - Urchuequía, Arantxa

AU - Villalobos, Felipe

AU - Sturkenboom, Miriam C J M

AU - Klungel, Olaf H

PY - 2025/1/8

Y1 - 2025/1/8

N2 - We test the robustness of the self-controlled risk interval (SCRI) design in a setting where time between doses may introduce time-varying confounding, using both negative control outcomes (NCOs) and quantitative bias analysis (QBA). All vaccinated cases identified from 5 European databases between September 1, 2020, and end of data availability were included. Exposures were doses 1-3 of the Pfizer, Moderna, AstraZeneca, and Janssen COVID-19 vaccines; outcomes were myocarditis and, as the NCO, otitis externa. The SCRI used a 60-day control window and dose-specific 28-day risk windows, stratified by vaccine brand and adjusted for calendar time. The QBA included two scenarios: (1) baseline probability of the confounder was higher in the control window and (2) vice versa. The NCO was not associated with any of the COVID-19 vaccine types or doses except Moderna dose 1 (IRR = 1.09; 95% CI 1.01-1.09). The QBA suggested that even the strongest literature-reported confounder (COVID-19; RR for myocarditis = 18.3) could only explain away part of the observed effect, from IRR = 3 to IRR = 1.40. The SCRI seems robust to unmeasured confounding in the COVID-19 setting, although a strong unmeasured confounder could bias the observed effect upward. Replication of our findings for other safety signals would strengthen this conclusion. This article is part of a Special Collection on Pharmacoepidemiology.

AB - We test the robustness of the self-controlled risk interval (SCRI) design in a setting where time between doses may introduce time-varying confounding, using both negative control outcomes (NCOs) and quantitative bias analysis (QBA). All vaccinated cases identified from 5 European databases between September 1, 2020, and end of data availability were included. Exposures were doses 1-3 of the Pfizer, Moderna, AstraZeneca, and Janssen COVID-19 vaccines; outcomes were myocarditis and, as the NCO, otitis externa. The SCRI used a 60-day control window and dose-specific 28-day risk windows, stratified by vaccine brand and adjusted for calendar time. The QBA included two scenarios: (1) baseline probability of the confounder was higher in the control window and (2) vice versa. The NCO was not associated with any of the COVID-19 vaccine types or doses except Moderna dose 1 (IRR = 1.09; 95% CI 1.01-1.09). The QBA suggested that even the strongest literature-reported confounder (COVID-19; RR for myocarditis = 18.3) could only explain away part of the observed effect, from IRR = 3 to IRR = 1.40. The SCRI seems robust to unmeasured confounding in the COVID-19 setting, although a strong unmeasured confounder could bias the observed effect upward. Replication of our findings for other safety signals would strengthen this conclusion. This article is part of a Special Collection on Pharmacoepidemiology.

KW - COVID-19 vaccine safety

KW - negative controls

KW - pharmacoepidemiology

KW - quantitative bias analysis

KW - self-controlled risk interval design

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DO - 10.1093/aje/kwae172

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JO - American Journal of Epidemiology

JF - American Journal of Epidemiology

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Bots SH, Belitser S, Groenwold RHH, Durán CE, Riera-Arnau J, Schultze A et al. Applying two approaches to detect unmeasured confounding due to time-varying variables in a self-controlled risk interval design evaluating COVID-19 vaccine safety signals, using myocarditis as a case example. American Journal of Epidemiology. 2025 Jan 8;194(1):208-219. doi.org/10.1093/aje/kwae172. Epub 2024 Jul 3. doi: 10.1093/aje/kwae172

Applying two approaches to detect unmeasured confounding due to time-varying variables in a self-controlled risk interval design evaluating COVID-19 vaccine safety signals, using myocarditis as a case example

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