Your search keyword '"Dawes, T"' showing total 5 results

1. Metabolic pathways associated with right ventricular adaptation to pulmonary hypertension: Three dimensional analysis of cardiac magnetic resonance imaging

Author

Attard, M, Dawes, T, Simoes Monteiro de Marvao, A, Biffi, C, Shi, W, Wharton, J, Rhodes, C, Ghataorhe, P, Gibbs, J, Howard, L, Rueckert, D, Wilkins, M, O'Regan, D, British Heart Foundation, Imperial College Healthcare NHS Trust- BRC Funding, The Academy of Medical Sciences, Medical Research Council (MRC), GlaxoSmithKline Services Unlimited, Wellcome Trust, and Mason Medical Research Foundation

Subjects

machine learning, wall stress, cardiac magnetic resonance imaging, pulmonary hypertension, image segmentation, metabolomics

Abstract

Aims We sought to identify metabolic pathways associated with right ventricular (RV) adaptation to pulmonary hypertension (PH). We evaluated candidate metabolites, previously associated with survival in pulmonary arterial hypertension, and used automated image segmentation and parametric mapping to model their relationship to adverse patterns of remodelling and wall stress. Methods and results In 312 PH subjects (47.1% female, mean age 60.8 ± 15.9 years), of which 182 (50.5% female, mean age 58.6 ± 16.8 years) had metabolomics, we modelled the relationship between the RV phenotype, haemodynamic state, and metabolite levels. Atlas-based segmentation and co-registration of cardiac magnetic resonance imaging was used to create a quantitative 3D model of RV geometry and function—including maps of regional wall stress. Increasing mean pulmonary artery pressure was associated with hypertrophy of the basal free wall (β = 0.29) and reduced relative wall thickness (β = −0.38), indicative of eccentric remodelling. Wall stress was an independent predictor of all-cause mortality (hazard ratio = 1.27, P = 0.04). Six metabolites were significantly associated with elevated wall stress (β = 0.28–0.34) including increased levels of tRNA-specific modified nucleosides and fatty acid acylcarnitines, and decreased levels (β = −0.40) of sulfated androgen. Conclusion Using computational image phenotyping, we identify metabolic profiles, reporting on energy metabolism and cellular stress-response, which are associated with adaptive RV mechanisms to PH.

Published

2018

2. P5470Septal hypertrophy in aortic stenosis and its regression after valve replacement is more plastic in males than females: insights from 3D machine learning approach

Author

Bhuva, A, primary, Treibel, T A, additional, De Marvao, A, additional, Biffi, C, additional, Dawes, T, additional, Doumou, G, additional, Bai, W, additional, Oktay, O, additional, Jones, S, additional, Davies, R, additional, Chaturvedi, N, additional, Rueckert, D, additional, Hughes, A, additional, Moon, J C, additional, and Manisty, C H, additional

Published

2018

3. Lean mass, fat mass and eccentric left ventricular remodelling in obesity

Author

Corden, B., primary, Keenan, N. G., additional, Dawes, T. J. W., additional, De Marvao, A. S. M., additional, Durighel, G., additional, Diamond, T., additional, Cook, S. A., additional, and O'Regan, D. P., additional

Published

2013

4. Sex differences in the relationship between adiposity and left ventricular morphology

Author

Corden, B., primary, Keenan, N. G., additional, De Marvao, A. S. M., additional, Dawes, T. J. W., additional, Diamond, T., additional, Durighel, G., additional, Cook, S. A., additional, and O'Regan, D. P., additional

Published

2013

5. Microfabrication in silicon microphysiometry

Author

Baxter, G T, primary, Bousse, L J, primary, Dawes, T D, primary, Libby, J M, primary, Modlin, D N, primary, Owicki, J C, primary, and Parce, J W, primary

Published

1994