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Full-Text Articles in Medicine and Health Sciences
Obesity Reduces Left Ventricular Strains, Torsion, And Synchrony In Mouse Models: A Cine Displacement Encoding With Stimulated Echoes (Dense) Cardiovascular Magnetic Resonance Study, Sage P. Kramer, David K. Powell, Christopher M. Haggerty, Cassi M. Binkley, Andrea C. Mattingly, Lisa A. Cassis, Frederick H. Epstein, Brandon K. Fornwalt
Obesity Reduces Left Ventricular Strains, Torsion, And Synchrony In Mouse Models: A Cine Displacement Encoding With Stimulated Echoes (Dense) Cardiovascular Magnetic Resonance Study, Sage P. Kramer, David K. Powell, Christopher M. Haggerty, Cassi M. Binkley, Andrea C. Mattingly, Lisa A. Cassis, Frederick H. Epstein, Brandon K. Fornwalt
Pediatrics Faculty Publications
BACKGROUND: Obesity affects a third of adults in the US and results in an increased risk of cardiovascular mortality. While the mechanisms underlying this increased risk are not well understood, animal models of obesity have shown direct effects on the heart such as steatosis and fibrosis, which may affect cardiac function. However, the effect of obesity on cardiac function in animal models is not well-defined. We hypothesized that diet-induced obesity in mice reduces strain, torsion, and synchrony in the left ventricle (LV).
METHODS: Ten 12-week-old C57BL/6 J mice were randomized to a high-fat or low-fat diet. After 5 months on …
Reproducibility Of Cine Displacement Encoding With Stimulated Echoes (Dense) Cardiovascular Magnetic Resonance For Measuring Left Ventricular Strains, Torsion, And Synchrony In Mice, Christopher M. Haggerty, Sage P. Kramer, Cassi M. Binkley, David K. Powell, Andrea C. Mattingly, Richard Charnigo, Frederick H. Epstein, Brandon K. Fornwalt
Reproducibility Of Cine Displacement Encoding With Stimulated Echoes (Dense) Cardiovascular Magnetic Resonance For Measuring Left Ventricular Strains, Torsion, And Synchrony In Mice, Christopher M. Haggerty, Sage P. Kramer, Cassi M. Binkley, David K. Powell, Andrea C. Mattingly, Richard Charnigo, Frederick H. Epstein, Brandon K. Fornwalt
Pediatrics Faculty Publications
BACKGROUND: Advanced measures of cardiac function are increasingly important to clinical assessment due to their superior diagnostic and predictive capabilities. Cine DENSE cardiovascular magnetic resonance (CMR) is ideal for quantifying advanced measures of cardiac function based on its high spatial resolution and streamlined post-processing. While many studies have utilized cine DENSE in both humans and small-animal models, the inter-test and inter-observer reproducibility for quantification of advanced cardiac function in mice has not been evaluated. This represents a critical knowledge gap for both understanding the capabilities of this technique and for the design of future experiments. We hypothesized that cine DENSE …