Browsing Centre for Clinical Pharmacology by Author "Tzanis, E"
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199Genetic architecture of left ventricular phenotypes derived from 17,000 CMR studies in the UK Biobank population imaging cohort
Aung, N; Vargas, JD; Manichaikul, AW; Yang, C; Cabrera, CP; Warren, HR; Fung, K; Tzanis, E; Barnes, MR; Bluemke, DA (2019-06-01) -
Genetic analysis of over 1 million people identifies 535 new loci associated with blood pressure traits
Evangelou, E; Warren, HR; Mosen-Ansorena, D; Mifsu, B; Pazoki, R; Gao, H; Ntritsos, G; Dimou, N; Cabrer, CP; Karaman, I (2018-10) -
Genetic architecture of left ventricular phenotypes derived from 17,000 CMR studies in the UK Biobank population imaging cohort
Aung, N; Vargas, JD; Manichaikul, AW; Yang, C; Cabrera, CP; Warren, HR; Fung, K; Tzanis, E; Barnes, MR; Bluemke, DA (2019-06) -
Genome-wide association study identifies loci for arterial stiffness index in 127,121 UK Biobank participants
Fung, K; Ramirez, J; Warren, HR; Aung, N; Lee, AM; Tzanis, E; Petersen, SE; Munroe, PB (2019-06-24) -
Heritability and genotypic correlation of CMR-derived LV phenotypes in the UK Biobank population imaging study
Aung, N; Vargas, JD; Manichaikul, AW; Yang, CP; Cabrera, CP; Warren, HR; Fung, K; Tzanis, E; Barnes, MR; Piechnik, SK (2019-06) -
Publisher Correction: Genetic analysis of over 1 million people identifies 535 new loci associated with blood pressure traits.
Evangelou, E; Warren, HR; Mosen-Ansorena, D; Mifsud, B; Pazoki, R; Gao, H; Ntritsos, G; Dimou, N; Cabrera, CP; Karaman, I (Nature Research (part of Springer Nature), 2018-11-14)Correction to: Nature Genetics https://doi.org/10.1038/s41588-018-0205-x, published online 17 September 2018. In the version of this article originally published, the name of author Martin H. de Borst was coded incorrectly ... -
Thirty loci identified for heart rate response to exercise and recovery implicate autonomic nervous system.
Ramírez, J; Duijvenboden, SV; Ntalla, I; Mifsud, B; Warren, HR; Tzanis, E; Orini, M; Tinker, A; Lambiase, PD; Munroe, PB (2018-05-16)Impaired capacity to increase heart rate (HR) during exercise (ΔHRex), and a reduced rate of recovery post-exercise (ΔHRrec) are associated with higher cardiovascular mortality rates. Currently, the genetic basis of both ...