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1.
Gielen, M.* et al.: Body mass index is negatively associated with telomere length: A collaborative cross-sectional meta-analysis of 87 observational studies. Am. J. Clin. Nutr. 108, 453-475 (2018)
2.
Kollerits, B.* et al.: Plasma concentrations of afamin are associated with prevalent and incident type 2 diabetes: A pooled analysis in more than 20,000 individuals. Diabetes Care 40, 1386-1393 (2017)
3.
Mack, S.* et al.: Evaluating the causal relation of ApoA-IV with disease-related traits - A bidirectional two-sample mendelian randomization study. Sci. Rep. 7:8734 (2017)
4.
Kollerits, B.* et al.: Plasma concentrations of afamin are associated with the prevalence and incidence of type 2 diabetes mellitus. Atherosclerosis 252, E217-E218 (2016)
5.
Lamina, C.* et al.: A genome-wide association meta-analysis on apolipoprotein A-IV concentrations. Hum. Mol. Genet. 25, 3635-3646 (2016)
6.
Pattaro, C.* et al.: Genetic associations at 53 loci highlight cell types and biological pathways relevant for kidney function. Nat. Commun. 7:10023 (2016)
7.
Teumer, A.* et al.: Genome-wide association studies identify genetic loci associated with albuminuria in diabetes. Diabetes 65, 803-817 (2016)
8.
Gorski, M.* et al.: Genome-wide association study of kidney function decline in individuals of European descent. Kidney Int. 87, 1017–1029 (2015)
9.
Stangl, S.* et al.: Association between apolipoprotein A-IV concentrations and chronic kidney disease in two large population-based cohorts: Results from the KORA studies. J. Intern. Med. 278, 410-423 (2015)
10.
Broer, L.* et al.: Association of adiponectin and leptin with relative telomere length in seven independent cohorts including 11,448 participants. Eur. J. Epidemiol. 29, 629-638 (2014)
11.
Dieplinger, H.* et al.: Plasma concentrations of afamin are associated with the prevalence and developement of metabolic syndrome. Atherosclerosis 235, E70-E71 (2014)
12.
Dieplinger, H.* et al.: Plasma concentrations of afamin are associated with the prevalence and development of metabolic syndrome. Eur. Heart J. 35, 448-449 (2014)
13.
Kronenberg, F.* et al.: Plasma concentrations of afamin are associated with the prevalence and development of metabolic syndrome. Circ. Cardiovasc. Genet. 7, 822-829 (2014)
14.
Lamina, C.* et al.: Correlation between a positive family risk score and peripheral artery disease in one case-control and two population-based studies. Atherosclerosis 237, 243-250 (2014)
15.
Laschkolnig, A.* et al.: Lipoprotein (a) concentrations, apolipoprotein (a) phenotypes, and peripheral arterial disease in three independent cohorts. Cardiovasc. Res. 103, 28-36 (2014)
16.
Parsa, A.* et al.: Common variants in mendelian kidney disease genes and their association with renal function. J. Am. Soc. Nephrol. 24, 2105-2117 (2013)
17.
Lamina, C.* et al.: Evaluation of gene-obesity interaction effects on cholesterol levels: A genetic predisposition score on HDL-cholesterol is modified by obesity. Atherosclerosis 225, 363-369 (2012)
18.
Murabito, J.M.* et al.: Association between chromosome 9p21 variants and the ankle-brachial index identified by a meta-analysis of 21 genome-wide association studies. Circ. Cardiovasc. Genet. 5, 100-112 (2012)
19.
Pattaro, C.* et al.: Genome-wide association and functional follow-up reveals new loci for kidney function. PLoS Genet. 8:e1002584 (2012)
20.
Wassel, C.L.* et al.: Genetic determinants of the ankle-brachial index: A meta-analysis of a cardiovascular candidate gene 50K SNP panel in the Candidate gene Association Resource (CARe) consortium. Atherosclerosis 222, 138-147 (2012)