A unified framework for estimating country-specific cumulative incidence for 18 diseases stratified by polygenic risk

Estonian Biobank Research Team; FinnGen; Christoph Lippert; David  van Heel; Yukinori Okada; Daniel L McCartney; Caroline Hayward; Riccardo E Marioni; Simone Furini; Alessandra Renieri; Alicia R. Martin; Benjamin M Neale; Kristian Hveem; Reedik Mägi; Aarno Palotie; Henrike  Heyne; Nina Mars; Andrea Ganna; Samuli Ripatti

A unified framework for estimating country-specific cumulative incidence for 18 diseases stratified by polygenic risk

Estonian Biobank Research Team, FinnGen, Christoph Lippert, David van Heel, Yukinori Okada, Daniel L McCartney, Caroline Hayward, Riccardo E Marioni, Simone Furini, Alessandra Renieri, Alicia R. Martin, Benjamin M Neale, Kristian Hveem, Reedik Mägi, Aarno Palotie, Henrike Heyne, Nina Mars, Andrea Ganna, Samuli Ripatti^*

^*Corresponding author for this work

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

Abstract

Polygenic scores (PGSs) offer the ability to predict genetic risk for complex diseases across the life course; a key benefit over short-term prediction models. To produce risk estimates relevant to clinical and public health decision-making, it is important to account for varying effects due to age and sex. Here, we develop a novel framework to estimate country-, age-, and sex-specific estimates of cumulative incidence stratified by PGS for 18 high-burden diseases. We integrate PGS associations from seven studies in four countries (N = 1,197,129) with disease incidences from the Global Burden of Disease. PGS has a significant sex-specific effect for asthma, hip osteoarthritis, gout, coronary heart disease and type 2 diabetes (T2D), with all but T2D exhibiting a larger effect in men. PGS has a larger effect in younger individuals for 13 diseases, with effects decreasing linearly with age. We show for breast cancer that, relative to individuals in the bottom 20% of polygenic risk, the top 5% attain an absolute risk for screening eligibility 16.3 years earlier. Our framework increases the generalizability of results from biobank studies and the accuracy of absolute risk estimates by appropriately accounting for age- and sex-specific PGS effects. Our results highlight the potential of PGS as a screening tool which may assist in the early prevention of common diseases.

Original language	English
Journal	Nature Communications
Publication status	Published - 12 Jun 2024

Keywords / Materials (for Non-textual outputs)

Public Health
genetics
biobanks
precision medicine
absolute risk

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s41467-024-48938-2
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Generation Scotland: NextGenScot
Porteous, D. (Principal Investigator), Deary, I. (Co-investigator), Hayward, C. (Co-investigator), McIntosh, A. (Co-investigator) & Sudlow, C. (Co-investigator)
UK-based charities
1/11/19 → 31/10/24
Project: Research
Stratifying Resilience and Depression Longitudinally
McIntosh, A. (Principal Investigator), Deary, I. (Co-investigator), Evans, K. (Co-investigator), Haley, C. (Co-investigator) & Porteous, D. (Co-investigator)
UK-based charities
1/01/15 → 30/06/21
Project: Research
Generation Scotland
Porteous, D. (Principal Investigator)
UK central government bodies/local authorities, health and hospital authorities
1/04/11 → 31/03/14
Project: Research

Cite this

Estonian Biobank Research Team, FinnGen, Lippert, C., van Heel, D., Okada, Y., McCartney, D. L., Hayward, C., Marioni, R. E., Furini, S., Renieri, A., Martin, A. R., Neale, B. M., Hveem, K., Mägi, R., Palotie, A., Heyne, H., Mars, N., Ganna, A., & Ripatti, S. (2024). A unified framework for estimating country-specific cumulative incidence for 18 diseases stratified by polygenic risk. Nature Communications.

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title = "A unified framework for estimating country-specific cumulative incidence for 18 diseases stratified by polygenic risk",

abstract = "Polygenic scores (PGSs) offer the ability to predict genetic risk for complex diseases across the life course; a key benefit over short-term prediction models. To produce risk estimates relevant to clinical and public health decision-making, it is important to account for varying effects due to age and sex. Here, we develop a novel framework to estimate country-, age-, and sex-specific estimates of cumulative incidence stratified by PGS for 18 high-burden diseases. We integrate PGS associations from seven studies in four countries (N = 1,197,129) with disease incidences from the Global Burden of Disease. PGS has a significant sex-specific effect for asthma, hip osteoarthritis, gout, coronary heart disease and type 2 diabetes (T2D), with all but T2D exhibiting a larger effect in men. PGS has a larger effect in younger individuals for 13 diseases, with effects decreasing linearly with age. We show for breast cancer that, relative to individuals in the bottom 20% of polygenic risk, the top 5% attain an absolute risk for screening eligibility 16.3 years earlier. Our framework increases the generalizability of results from biobank studies and the accuracy of absolute risk estimates by appropriately accounting for age- and sex-specific PGS effects. Our results highlight the potential of PGS as a screening tool which may assist in the early prevention of common diseases.",

keywords = "Public Health, genetics, biobanks, precision medicine, absolute risk",

author = "Bradley Jermy and Kristi Lall and Wolford, {Brooke N.} and Ying Wang and Kristina Zguro and Yipeng Cheng and Masahiro Kanai and Stavroula Kanoni and Zhiyuan Yang and Tuomo Hartonen and Remo Monti and Julian Wanner and Omar Youssef and {Estonian Biobank Research Team} and FinnGen and Christoph Lippert and {van Heel}, David and Yukinori Okada and McCartney, {Daniel L} and Caroline Hayward and Marioni, {Riccardo E} and Simone Furini and Alessandra Renieri and Martin, {Alicia R.} and Neale, {Benjamin M} and Kristian Hveem and Reedik M{\"a}gi and Aarno Palotie and Henrike Heyne and Nina Mars and Andrea Ganna and Samuli Ripatti",

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Estonian Biobank Research Team, FinnGen, Lippert, C, van Heel, D, Okada, Y, McCartney, DL , Hayward, C , Marioni, RE, Furini, S, Renieri, A, Martin, AR, Neale, BM, Hveem, K, Mägi, R, Palotie, A, Heyne, H, Mars, N, Ganna, A & Ripatti, S 2024, 'A unified framework for estimating country-specific cumulative incidence for 18 diseases stratified by polygenic risk', Nature Communications.

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AU - Jermy, Bradley

AU - Lall, Kristi

AU - Wolford, Brooke N.

AU - Wang, Ying

AU - Zguro, Kristina

AU - Cheng, Yipeng

AU - Kanai, Masahiro

AU - Kanoni, Stavroula

AU - Yang, Zhiyuan

AU - Hartonen, Tuomo

AU - Monti, Remo

AU - Wanner, Julian

AU - Youssef, Omar

AU - Estonian Biobank Research Team

AU - FinnGen

AU - Lippert, Christoph

AU - van Heel, David

AU - Okada, Yukinori

AU - McCartney, Daniel L

AU - Hayward, Caroline

AU - Marioni, Riccardo E

AU - Furini, Simone

AU - Renieri, Alessandra

AU - Martin, Alicia R.

AU - Neale, Benjamin M

AU - Hveem, Kristian

AU - Mägi, Reedik

AU - Palotie, Aarno

AU - Heyne, Henrike

AU - Mars, Nina

AU - Ganna, Andrea

AU - Ripatti, Samuli

PY - 2024/6/12

Y1 - 2024/6/12

N2 - Polygenic scores (PGSs) offer the ability to predict genetic risk for complex diseases across the life course; a key benefit over short-term prediction models. To produce risk estimates relevant to clinical and public health decision-making, it is important to account for varying effects due to age and sex. Here, we develop a novel framework to estimate country-, age-, and sex-specific estimates of cumulative incidence stratified by PGS for 18 high-burden diseases. We integrate PGS associations from seven studies in four countries (N = 1,197,129) with disease incidences from the Global Burden of Disease. PGS has a significant sex-specific effect for asthma, hip osteoarthritis, gout, coronary heart disease and type 2 diabetes (T2D), with all but T2D exhibiting a larger effect in men. PGS has a larger effect in younger individuals for 13 diseases, with effects decreasing linearly with age. We show for breast cancer that, relative to individuals in the bottom 20% of polygenic risk, the top 5% attain an absolute risk for screening eligibility 16.3 years earlier. Our framework increases the generalizability of results from biobank studies and the accuracy of absolute risk estimates by appropriately accounting for age- and sex-specific PGS effects. Our results highlight the potential of PGS as a screening tool which may assist in the early prevention of common diseases.

AB - Polygenic scores (PGSs) offer the ability to predict genetic risk for complex diseases across the life course; a key benefit over short-term prediction models. To produce risk estimates relevant to clinical and public health decision-making, it is important to account for varying effects due to age and sex. Here, we develop a novel framework to estimate country-, age-, and sex-specific estimates of cumulative incidence stratified by PGS for 18 high-burden diseases. We integrate PGS associations from seven studies in four countries (N = 1,197,129) with disease incidences from the Global Burden of Disease. PGS has a significant sex-specific effect for asthma, hip osteoarthritis, gout, coronary heart disease and type 2 diabetes (T2D), with all but T2D exhibiting a larger effect in men. PGS has a larger effect in younger individuals for 13 diseases, with effects decreasing linearly with age. We show for breast cancer that, relative to individuals in the bottom 20% of polygenic risk, the top 5% attain an absolute risk for screening eligibility 16.3 years earlier. Our framework increases the generalizability of results from biobank studies and the accuracy of absolute risk estimates by appropriately accounting for age- and sex-specific PGS effects. Our results highlight the potential of PGS as a screening tool which may assist in the early prevention of common diseases.

KW - Public Health

KW - genetics

KW - biobanks

KW - precision medicine

KW - absolute risk

M3 - Article

SN - 2041-1723

JO - Nature Communications

JF - Nature Communications

ER -

A unified framework for estimating country-specific cumulative incidence for 18 diseases stratified by polygenic risk

Abstract

Keywords / Materials (for Non-textual outputs)

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Projects

Generation Scotland: NextGenScot

Stratifying Resilience and Depression Longitudinally

Generation Scotland

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