TY - JOUR
T1 - Polygenic Risk Scores and Extreme Coronary Artery Calcium Phenotypes (CAC=0 and CAC\u22651000) in Adults \u226575 Years Old
T2 - The ARIC Study
AU - Dzaye, Omar
AU - Razavi, Alexander C.
AU - Dardari, Zeina A.
AU - Wang, Frances M.
AU - Honda, Yasuyuki
AU - Nasir, Khurram
AU - Coresh, Josef
AU - Howard-Claudio, Candace M.
AU - Jin, Jin
AU - Yu, Bing
AU - de Vries, Paul S.
AU - Wagenknecht, Lynne
AU - Folsom, Aaron R.
AU - Blankstein, Ron
AU - Kelly, Tanika N.
AU - Whelton, Seamus P.
AU - Mortensen, Martin Bødtker
AU - Wang, Ziqiao
AU - Chatterjee, Nilanjan
AU - Matsushita, Kunihiro
AU - Blaha, Michael J.
N1 - Publisher Copyright:
© 2024 American Heart Association, Inc.
PY - 2024/11/1
Y1 - 2024/11/1
N2 - BACKGROUND: Coronary artery calcium (CAC) is heterogeneous in older age and is incompletely explained by traditional atherosclerotic cardiovascular disease risk factors. The extremes of subclinical atherosclerosis burden are strongly associated with either a low or high 10-year risk of incident atherosclerotic cardiovascular disease, respectively. However, the genetic underpinnings of differences in arterial aging remain unclear. We sought to determine the independent association of 2 polygenic scores for coronary heart disease (CHD) with CAC in adults ≥75 years of age. METHODS: There were 1865 ARIC (Atherosclerosis Risk in Communities) participants who underwent genetic testing at visit 1 (1987–1989) and CAC scans at visit 7 (2018–2019). In the primary analysis, an externally derived multi-ancestry polygenic CHD risk score was calculated for both White and Black participants. Results were confirmed using a separate ARIC-derived polygenic CHD risk score, including ≥6 million variants computed for White participants. We used multivariable logistic regression models to assess the association of polygenic CHD risk with CAC, after adjusting for baseline, time-averaged lifestyle, traditional risk factors, and local ancestry principal components. RESULTS: In the primary analysis, the average age was 80.6 years old, 61.6% were women, and the median CAC score was 246 (189 participants with CAC=0, 364 participants with CAC≥1000). Compared with persons below the 20th percentile of polygenic CHD risk, persons with polygenic-CHD risk above the 80th percentile had 82% lower odds of having CAC=0 (odds ratio, 0.18 [95% CI, 0.09–0.37]) and had >4-fold higher odds of CAC≥1000 (odds ratio, 4.77 [95% CI, 2.88–7.88]). On a continuous scale, each SD increment increase in the polygenic risk score was associated with a 78% higher CAC score. Results were nearly identical using a second confirmatory polygenic CHD risk score in White participants. CONCLUSIONS: Polygenic CHD risk is robustly associated with a lower prevalence of CAC=0 and a higher prevalence of CAC≥1000 in adults ≥75 years of age, beyond lifestyle and traditional risk factors. These results suggest a heritable contribution to distinct healthy and unhealthy arterial aging phenotypes that persist throughout the life course.
AB - BACKGROUND: Coronary artery calcium (CAC) is heterogeneous in older age and is incompletely explained by traditional atherosclerotic cardiovascular disease risk factors. The extremes of subclinical atherosclerosis burden are strongly associated with either a low or high 10-year risk of incident atherosclerotic cardiovascular disease, respectively. However, the genetic underpinnings of differences in arterial aging remain unclear. We sought to determine the independent association of 2 polygenic scores for coronary heart disease (CHD) with CAC in adults ≥75 years of age. METHODS: There were 1865 ARIC (Atherosclerosis Risk in Communities) participants who underwent genetic testing at visit 1 (1987–1989) and CAC scans at visit 7 (2018–2019). In the primary analysis, an externally derived multi-ancestry polygenic CHD risk score was calculated for both White and Black participants. Results were confirmed using a separate ARIC-derived polygenic CHD risk score, including ≥6 million variants computed for White participants. We used multivariable logistic regression models to assess the association of polygenic CHD risk with CAC, after adjusting for baseline, time-averaged lifestyle, traditional risk factors, and local ancestry principal components. RESULTS: In the primary analysis, the average age was 80.6 years old, 61.6% were women, and the median CAC score was 246 (189 participants with CAC=0, 364 participants with CAC≥1000). Compared with persons below the 20th percentile of polygenic CHD risk, persons with polygenic-CHD risk above the 80th percentile had 82% lower odds of having CAC=0 (odds ratio, 0.18 [95% CI, 0.09–0.37]) and had >4-fold higher odds of CAC≥1000 (odds ratio, 4.77 [95% CI, 2.88–7.88]). On a continuous scale, each SD increment increase in the polygenic risk score was associated with a 78% higher CAC score. Results were nearly identical using a second confirmatory polygenic CHD risk score in White participants. CONCLUSIONS: Polygenic CHD risk is robustly associated with a lower prevalence of CAC=0 and a higher prevalence of CAC≥1000 in adults ≥75 years of age, beyond lifestyle and traditional risk factors. These results suggest a heritable contribution to distinct healthy and unhealthy arterial aging phenotypes that persist throughout the life course.
KW - aging
KW - cardiovascular diseases
KW - coronary artery disease
KW - humans
KW - prevalence
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U2 - 10.1161/CIRCIMAGING.123.016377
DO - 10.1161/CIRCIMAGING.123.016377
M3 - Article
C2 - 39534973
AN - SCOPUS:85210188036
SN - 1941-9651
VL - 17
SP - e016377
JO - Circulation: Cardiovascular Imaging
JF - Circulation: Cardiovascular Imaging
IS - 11
ER -