Gabriella Smith scite author profile

Heart failure represents a major cause of morbidity and mortality worldwide. Single-cell transcriptomics have revolutionized our understanding of cell composition and associated gene expression. Through integrated analysis of single-cell and single-nucleus RNA-sequencing data generated from 27 healthy donors and 18 individuals with dilated cardiomyopathy, here we define the cell composition of the healthy and failing human heart. We identify cell-specific transcriptional signatures associated with age and heart failure and reveal the emergence of disease-associated cell states. Notably, cardiomyocytes converge toward common disease-associated cell states, whereas fibroblasts and myeloid cells undergo dramatic diversification. Endothelial cells and pericytes display global transcriptional shifts without changes in cell complexity. Collectively, our findings provide a comprehensive analysis of the cellular and transcriptomic landscape of human heart failure, identify cell type-specific transcriptional programs and disease-associated cell states and establish a valuable resource for the investigation of human heart failure.

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Right Ventricular Global Longitudinal Strain Is an Independent Predictor of Right Ventricular Function: A Multimodality Study of Cardiac Magnetic Resonance Imaging, Real Time Three‐Dimensional Echocardiography and Speckle Tracking Echocardiography

Chen

Profitis

et al. 2014

Echocardiography

120

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Menstrual Cycle Variations of Corneal Topography and Thickness

Kiely

Carney²,

Smith³

1983

Optometry and Vision Science

104

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Single Cell Transcriptomics Reveals Cell Type Specific Diversification in Human Heart Failure

Koenig

Shchukina

Andhey

et al. 2021

Preprint

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Heart failure represents a major cause of morbidity and mortality worldwide. Single cell transcriptomics have revolutionized our understanding of cell composition and associated gene expression across human tissues. Through integrated analysis of single cell and single nucleus RNA sequencing data generated from 45 individuals, we define the cell composition of the healthy and failing human heart. We identify cell specific transcriptional signatures of heart failure and reveal the emergence of disease associated cell states. Intriguingly, cardiomyocytes converge towards a common disease associated cell state, while fibroblasts and myeloid cells undergo dramatic diversification. Endothelial cells and pericytes display global transcriptional shifts without changes in cell complexity. Collectively, our findings provide a comprehensive analysis of the cellular and transcriptomic landscape of human heart failure, identify cell type specific transcriptional programs and states associated with disease, and establish a valuable resource for the investigation of human heart failure.

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Gabriella Smith

Capillary Penetration of Liquid Droplets into Porous Materials

Single-cell transcriptomics reveals cell-type-specific diversification in human heart failure

Right Ventricular Global Longitudinal Strain Is an Independent Predictor of Right Ventricular Function: A Multimodality Study of Cardiac Magnetic Resonance Imaging, Real Time Three‐Dimensional Echocardiography and Speckle Tracking Echocardiography

Menstrual Cycle Variations of Corneal Topography and Thickness

Single Cell Transcriptomics Reveals Cell Type Specific Diversification in Human Heart Failure

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