Medicine and Health Sciences Commons^™

Assessment Of Intra- And Inter-Ventricular Cardiac Dyssynchrony In Patients With Repaired Tetralogy Of Fallot: A Cardiac Magnetic Resonance Study, Linyuan Jing, Christopher M. Haggerty, Jonathan D. Suever, Ashwin Prakash, Frank Cecchin, Oskar Skrinjar, Tal Geva, Andrew J. Powell, Brandon K. Fornwalt

Pediatrics Presentations

Background

Patients with repaired tetralogy of Fallot (TOF) frequently have right bundle branch block. However, the contribution of cardiac dyssynchrony to dysfunction remains controversial. To better understand this phenomenon and ultimately study therapies, we developed a method to quantify left (LV), right (RV) and inter-ventricular cardiac dyssynchrony using standard cine CMR.

Methods

30 patients with repaired TOF (age 28 ± 16, 46% female) and 17 healthy controls (age 29 ± 7, 12% female) underwent cine CMR. Patients were imaged twice to assess inter-test reproducibility. Circumferential strain vs time curves were generated with a custom feature tracking algorithm for 12 LV …

Characterizing The Temporal Evolution Of Altered Cardiac Mechanics In Diet-Induced Obese Mice Using Cine Dense Cmr, Christopher M. Haggerty, Andrea C. Mattingly, Cassi M. Binkley, Sage P. Kramer, David K. Powell, Frederick H. Epstein, Brandon K. Fornwalt

Pediatrics Presentations

Background

Obesity and metabolic syndrome are associated with increased risk of cardiovascular disease. Research suggests that altered cardiac mechanics (i.e., reduced strains, torsion, and synchrony of contraction) are present in obesity; yet, the causes of this mechanical dysfunction and its relationship to other sequelae of obesity (e.g., hypertension and elevated blood glucose) are not well understood. We hypothesize that diet-induced obesity in mice leads to reductions in measures of left ventricular (LV) mechanics, which develop in acute response to the onset of hyperglycemia, hypertension, and ventricular remodeling.

Methods

Twenty 4-week-old C57BL/6J mice were randomized (n = 10 per group) to …

Quantification Of Right Ventricular Function From Short-Axis Displacement-Encoded Images, Jonathan D. Suever, Gregory J. Wehner, Linyuan Jing, David K. Powell, Christopher M. Haggerty, Xiaodong Zhong, Frederick H. Epstein, Brandon K. Fornwalt

Pediatrics Presentations

Background

Right ventricular (RV) function is important in many disease states, but is difficult to quantify from routine MR imaging. Previous work has shown that long-axis deformation/strain is the most critical contributor to global RV function; however, short-axis datasets allow for better coverage of the RV. Thus it would be ideal to be able to quantify RV long-axis function using short-axis slice orientations. We hypothesized that a stack of three-dimensional (3D) displacement encoded (DENSE) images could reliably quantify longitudinal deformation of the RV to overcome the need for acquiring additional long-axis views of the RV.

Methods

A contiguous stack of …

Two-Dimensional Estimates Of Left Ventricular Strains Are Significantly Affected By Through-Plane Motion, Jonathan D. Suever, Gregory J. Wehner, Linyuan Jing, David K. Powell, Christopher M. Haggerty, Xiaodong Zhong, Frederick H. Epstein, Brandon K. Fornwalt

Pediatrics Presentations

Background

Advanced measures of cardiac mechanics such as left ventricular (LV) strains can be used in conjunction with classical biomarkers to gauge cardiovascular health and improve prediction of patient outcomes. Several imaging techniques, including displacement-encoded magnetic resonance imaging (DENSE), are used to non-invasively assess cardiac mechanics. These data are predominantly acquired in two dimensions (2D) due to simplified post-processing and shorter acquisition times; however, this type of acquisition and subsequent analysis cannot account for through-plane motion caused by longitudinal contraction of the left ventricle. We hypothesized that through-plane motion has a significant effect on 2D strain estimates.

Methods

Cine DENSE …