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1.
Ward-Caviness, C.K. et al.: Mendelian randomization evaluation of causal effects of fibrinogen on incident coronary heart disease. PLoS ONE 14:e0216222 (2019)
2.
de F C Lichtenfels, A.J.* et al.: Long-term air pollution exposure, genome-wide DNA methylation and lung function in the lifelines cohort study. Environ. Health Perspect. 126:027004 (2018)
3.
Luijk, R.* et al.: Autosomal genetic variation is associated with DNA methylation in regions variably escaping X-chromosome inactivation. Nat. Commun. 9:3738 (2018)
4.
Ward-Caviness, C.K. et al.: DNA methylation age is associated with an altered hemostatic profile in a multiethnic meta-analysis. Blood 132, 1842-1850 (2018)
5.
Ward-Caviness, C.K. et al.: Analysis of repeated leukocyte DNA methylation assessments reveals persistent epigenetic alterations after an incident myocardial infarction. Clin. Epigenet. 10:161 (2018)
6.
Ward-Caviness, C.K. et al.: Improvement of myocardial infarction risk prediction via inflammation-associated metabolite biomarkers. Heart 103, 1278-1285 (2017)
7.
Ward-Caviness, C.K. et al.: A genome-wide trans-ethnic interaction study links the PIGR-FCAMR locus to coronary atherosclerosis via interactions between genetic variants and residential exposure to traffic. PLoS ONE 12:e0173880 (2017)
8.
Wilson, R. et al.: The dynamics of smoking-related disturbed methylation: A two time-point study of methylation change in smokers, non-smokers and former smokers. BMC Genomics 18:805 (2017)
9.
Breitner, S. et al.: Associations among plasma metabolite levels and short-term exposure to PM2.5 and ozone in a cardiac catheterization cohort. Environ. Int. 97, 76-84 (2016)
10.
Chen, B.H.* et al.: DNA methylation-based measures of biological age: Meta-analysis predicting time to death. Aging 8, 1844-1865 (2016)
11.
Hampel, R. et al.: Short-term effects of air temperature on plasma metabolite concentrations in patients undergoing cardiac catheterization. Environ. Res. 151, 224-232 (2016)
12.
Ligthart, S.* et al.: DNA methylation signatures of chronic low-grade inflammation are associated with complex diseases. Genome Biol. 17:255 (2016)
13.
McGuinn, L.A.* et al.: Association between satellite-based estimates of long-term PM2.5 exposure and coronary artery disease. Environ. Res. 145, 9-17 (2016)
14.
Simpkin, A.J.* et al.: Prenatal and early life influences on epigenetic age in children: A study of mother-offspring pairs from two cohort studies. Hum. Mol. Genet. 25, 191-201 (2016)
15.
Ward-Caviness, C.K. et al.: Genetic variants in the bone morphogenic protein gene family modify the association between residential exposure to traffic and peripheral arterial disease. PLoS ONE 11:e0152670 (2016)
16.
Ward-Caviness, C.K. et al.: Long-term exposure to air pollution is associated with biological aging. Oncotarget 7, 74510-74525 (2016)
17.
Ward-Caviness, C.K. et al.: Short-term NO2 exposure is associated with long-chain fatty acids in prospective cohorts from Augsburg, Germany: Results from an analysis of 138 metabolites and three exposures. Int. J. Epidemiol. 45, 1528-1538 (2016)
18.
Peters, M.J.* et al.: The transcriptional landscape of age in human peripheral blood. Nat. Commun. 6:8570 (2015)