Publication: Towards a Molecular Systems Model of Coronary Artery Disease
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Date
2014
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Springer US
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Citation
Abraham, Gad, Oneil G. Bhalala, Paul I. W. de Bakker, Samuli Ripatti, and Michael Inouye. 2014. “Towards a Molecular Systems Model of Coronary Artery Disease.” Current Cardiology Reports 16 (1): 488. doi:10.1007/s11886-014-0488-1. http://dx.doi.org/10.1007/s11886-014-0488-1.
Research Data
Abstract
Coronary artery disease (CAD) is a complex disease driven by myriad interactions of genetics and environmental factors. Traditionally, studies have analyzed only 1 disease factor at a time, providing useful but limited understanding of the underlying etiology. Recent advances in cost-effective and high-throughput technologies, such as single nucleotide polymorphism (SNP) genotyping, exome/genome/RNA sequencing, gene expression microarrays, and metabolomics assays have enabled the collection of millions of data points in many thousands of individuals. In order to make sense of such 'omics' data, effective analytical methods are needed. We review and highlight some of the main results in this area, focusing on integrative approaches that consider multiple modalities simultaneously. Such analyses have the potential to uncover the genetic basis of CAD, produce genomic risk scores (GRS) for disease prediction, disentangle the complex interactions underlying disease, and predict response to treatment.
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Keywords
Coronary artery disease, Coronary heart disease, Genomics, Systems biology, Mendelian randomization, Metabolites, Network analysis, Molecular systems model
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