Meyer HV, Dawes TJW, Serrani M, Bai W, Tokarczuk P, Cai J, De Marvao A, Henry A, Lumbers RT, Gierten J, Thumberger T, Wittbrodt J, Ware JS, Rueckert D, Matthews PM, Prasad SK, Costantino ML, Cook SA, Birney E, O'Regan DP (2020)
Publication Type: Journal article
Publication year: 2020
Book Volume: 584
Pages Range: 589-594
Journal Issue: 7822
DOI: 10.1038/s41586-020-2635-8
The inner surfaces of the human heart are covered by a complex network of muscular strands that is thought to be a remnant of embryonic development1,2. The function of these trabeculae in adults and their genetic architecture are unknown. Here we performed a genome-wide association study to investigate image-derived phenotypes of trabeculae using the fractal analysis of trabecular morphology in 18,096 participants of the UK Biobank. We identified 16 significant loci that contain genes associated with haemodynamic phenotypes and regulation of cytoskeletal arborization3,4. Using biomechanical simulations and observational data from human participants, we demonstrate that trabecular morphology is an important determinant of cardiac performance. Through genetic association studies with cardiac disease phenotypes and Mendelian randomization, we find a causal relationship between trabecular morphology and risk of cardiovascular disease. These findings suggest a previously unknown role for myocardial trabeculae in the function of the adult heart, identify conserved pathways that regulate structural complexity and reveal the influence of the myocardial trabeculae on susceptibility to cardiovascular disease.
APA:
Meyer, H.V., Dawes, T.J.W., Serrani, M., Bai, W., Tokarczuk, P., Cai, J.,... O'Regan, D.P. (2020). Genetic and functional insights into the fractal structure of the heart. Nature, 584(7822), 589-594. https://doi.org/10.1038/s41586-020-2635-8
MLA:
Meyer, Hannah V., et al. "Genetic and functional insights into the fractal structure of the heart." Nature 584.7822 (2020): 589-594.
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