Statistical methods for the time-to-event analysis of individual participant data from multiple epidemiological studies

Simon Thompson; Stephen Kaptoge; Ian White; Angela Wood; Philip Perry; John Danesh; Torben Jørgensen; Emerging Risk Factors Collaboration; Anne Tybjærg-Hansen; Ruth Frikke-Schmidt; Børge G. Nordestgaard

doi:10.1093/ije/dyq063

Statistical methods for the time-to-event analysis of individual participant data from multiple epidemiological studies

Simon Thompson, Stephen Kaptoge, Ian White, Angela Wood, Philip Perry, John Danesh, Torben Jørgensen, Emerging Risk Factors Collaboration, Anne Tybjærg-Hansen, Ruth Frikke-Schmidt, Børge G. Nordestgaard

74 Citations (Scopus)

Abstract

Background Meta-analysis of individual participant time-to-event data from multiple prospective epidemiological studies enables detailed investigation of exposure-risk relationships, but involves a number of analytical challenges. Methods This article describes statistical approaches adopted in the Emerging Risk Factors Collaboration, in which primary data from more than 1 million participants in more than 100 prospective studies have been collated to enable detailed analyses of various risk markers in relation to incident cardiovascular disease outcomes. Results Analyses have been principally based on Cox proportional hazards regression models stratified by sex, undertaken in each study separately. Estimates of exposure-risk relationships, initially unadjusted and then adjusted for several confounders, have been combined over studies using meta-analysis. Methods for assessing the shape of exposure-risk associations and the proportional hazards assumption have been developed. Estimates of interactions have also been combined using meta-analysis, keeping separate within-and between-study information. Regression dilution bias caused by measurement error and within-person variation in exposures and confounders has been addressed through the analysis of repeat measurements to estimate corrected regression coefficients. These methods are exemplified by analysis of plasma fibrinogen and risk of coronary heart disease, and Stata code is made available. Conclusion Increasing numbers of meta-analyses of individual participant data from observational data are being conducted to enhance the statistical power and detail of epidemiological studies. The statistical methods developed here can be used to address the needs of such analyses.

Original language	English
Journal	International Journal of Epidemiology
Volume	39
Issue number	5
Pages (from-to)	1345-59
Number of pages	15
ISSN	0300-5771
DOIs	https://doi.org/10.1093/ije/dyq063
Publication status	Published - 1 Jan 2010

Keywords

Age Factors
Coronary Disease
Data Interpretation, Statistical
Epidemiologic Methods
Fibrinogen
Humans
Proportional Hazards Models
Risk Factors
Sex Factors
Smoking
Time Factors

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1093/ije/dyq063

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Thompson, S., Kaptoge, S., White, I., Wood, A., Perry, P., Danesh, J., Jørgensen, T., Emerging Risk Factors Collaboration, Tybjærg-Hansen, A., Frikke-Schmidt, R., & Nordestgaard, B. G. (2010). Statistical methods for the time-to-event analysis of individual participant data from multiple epidemiological studies. International Journal of Epidemiology, 39(5), 1345-59. https://doi.org/10.1093/ije/dyq063

Thompson, S, Kaptoge, S, White, I, Wood, A, Perry, P, Danesh, J, Jørgensen, T, Emerging Risk Factors Collaboration, Tybjærg-Hansen, A, Frikke-Schmidt, R & Nordestgaard, BG 2010, 'Statistical methods for the time-to-event analysis of individual participant data from multiple epidemiological studies', International Journal of Epidemiology, vol. 39, no. 5, pp. 1345-59. https://doi.org/10.1093/ije/dyq063

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abstract = "Background Meta-analysis of individual participant time-to-event data from multiple prospective epidemiological studies enables detailed investigation of exposure-risk relationships, but involves a number of analytical challenges. Methods This article describes statistical approaches adopted in the Emerging Risk Factors Collaboration, in which primary data from more than 1 million participants in more than 100 prospective studies have been collated to enable detailed analyses of various risk markers in relation to incident cardiovascular disease outcomes. Results Analyses have been principally based on Cox proportional hazards regression models stratified by sex, undertaken in each study separately. Estimates of exposure-risk relationships, initially unadjusted and then adjusted for several confounders, have been combined over studies using meta-analysis. Methods for assessing the shape of exposure-risk associations and the proportional hazards assumption have been developed. Estimates of interactions have also been combined using meta-analysis, keeping separate within-and between-study information. Regression dilution bias caused by measurement error and within-person variation in exposures and confounders has been addressed through the analysis of repeat measurements to estimate corrected regression coefficients. These methods are exemplified by analysis of plasma fibrinogen and risk of coronary heart disease, and Stata code is made available. Conclusion Increasing numbers of meta-analyses of individual participant data from observational data are being conducted to enhance the statistical power and detail of epidemiological studies. The statistical methods developed here can be used to address the needs of such analyses.",

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AU - Danesh, John

AU - Jørgensen, Torben

AU - Emerging Risk Factors Collaboration

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AU - Frikke-Schmidt, Ruth

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N2 - Background Meta-analysis of individual participant time-to-event data from multiple prospective epidemiological studies enables detailed investigation of exposure-risk relationships, but involves a number of analytical challenges. Methods This article describes statistical approaches adopted in the Emerging Risk Factors Collaboration, in which primary data from more than 1 million participants in more than 100 prospective studies have been collated to enable detailed analyses of various risk markers in relation to incident cardiovascular disease outcomes. Results Analyses have been principally based on Cox proportional hazards regression models stratified by sex, undertaken in each study separately. Estimates of exposure-risk relationships, initially unadjusted and then adjusted for several confounders, have been combined over studies using meta-analysis. Methods for assessing the shape of exposure-risk associations and the proportional hazards assumption have been developed. Estimates of interactions have also been combined using meta-analysis, keeping separate within-and between-study information. Regression dilution bias caused by measurement error and within-person variation in exposures and confounders has been addressed through the analysis of repeat measurements to estimate corrected regression coefficients. These methods are exemplified by analysis of plasma fibrinogen and risk of coronary heart disease, and Stata code is made available. Conclusion Increasing numbers of meta-analyses of individual participant data from observational data are being conducted to enhance the statistical power and detail of epidemiological studies. The statistical methods developed here can be used to address the needs of such analyses.

AB - Background Meta-analysis of individual participant time-to-event data from multiple prospective epidemiological studies enables detailed investigation of exposure-risk relationships, but involves a number of analytical challenges. Methods This article describes statistical approaches adopted in the Emerging Risk Factors Collaboration, in which primary data from more than 1 million participants in more than 100 prospective studies have been collated to enable detailed analyses of various risk markers in relation to incident cardiovascular disease outcomes. Results Analyses have been principally based on Cox proportional hazards regression models stratified by sex, undertaken in each study separately. Estimates of exposure-risk relationships, initially unadjusted and then adjusted for several confounders, have been combined over studies using meta-analysis. Methods for assessing the shape of exposure-risk associations and the proportional hazards assumption have been developed. Estimates of interactions have also been combined using meta-analysis, keeping separate within-and between-study information. Regression dilution bias caused by measurement error and within-person variation in exposures and confounders has been addressed through the analysis of repeat measurements to estimate corrected regression coefficients. These methods are exemplified by analysis of plasma fibrinogen and risk of coronary heart disease, and Stata code is made available. Conclusion Increasing numbers of meta-analyses of individual participant data from observational data are being conducted to enhance the statistical power and detail of epidemiological studies. The statistical methods developed here can be used to address the needs of such analyses.

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KW - Smoking

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JO - International Journal of Epidemiology

JF - International Journal of Epidemiology

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ER -

Statistical methods for the time-to-event analysis of individual participant data from multiple epidemiological studies

Abstract

Keywords

UN SDGs

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