Greater myocardial extracellular expansion was associated with reduced circumferential shortening (B=-0.1; P=0.0001), lower LV end-diastolic volume index, and lower LV end-diastolic mass index.
Cohort (n=1,230)
Is myocardial extracellular expansion associated with left ventricular remodeling and mechanical dysfunction in a community-based multiethnic population?
Greater myocardial extracellular expansion is associated with reduced LV volumes, mass, and subclinical mechanical dysfunction, with notable sex-specific differences in deformation patterns.
Effect estimate: B=-0.1
p-value: p=0.0001
BACKGROUND: Tagged cardiac magnetic resonance provides detailed information on regional myocardial function and mechanical behavior. T1 mapping by cardiac magnetic resonance allows noninvasive quantification of myocardial extracellular expansion (ECE), which has been related to interstitial fibrosis in previous clinical and subclinical studies. We assessed sex-associated differences in the relation of ECE to left ventricular (LV) remodeling and myocardial systolic and diastolic deformation in a large community-based multiethnic population. METHODS AND RESULTS: Midventricular midwall peak circumferential shortening and early diastolic strain rate and LV torsion and torsional recoil rate were determined using cardiac magnetic resonance tagging. Midventricular short-axis T1 maps were acquired in the same examination pre- and postcontrast injection using Modified Look-Locker Inversion-Recovery sequence. Multivariable linear regression (estimated regression coefficient, B) was used to adjust for risk factors and subclinical disease measures. Of 1230 participants, 114 had a visible myocardial scar by late gadolinium enhancement. Participants without a visible myocardial scar (n=1116) had no history of previous clinical events. In the latter group, multivariable linear regression demonstrated that lower postcontrast T1 times, reflecting greater ECE, were associated with lower circumferential shortening (B=-0.1; P=0.0001), lower LV end-diastolic volume index (B=0.6; P=0.0001), and lower LV end-diastolic mass index (B=0.4; P=0.0001). In addition, lower postcontrast T1 times were associated with lower early diastolic strain rate (B=0.01; P=0.03) in women only and lower LV torsion (B=0.005; P=0.03) and lower LV ejection fraction (B=0.2, P=0.01) in men only. CONCLUSIONS: Greater ECE is associated with reduced LV end-diastolic volume index and LV end-diastolic mass index in a large multiethnic population without history of previous cardiovascular events. In addition, greater ECE is associated with reduced circumferential shortening, lower early diastolic strain rate, and a preserved ejection fraction in women, whereas in men, greater ECE is associated with greater LV dysfunction manifested as reduced circumferential shortening, reduced LV torsion, and reduced ejection fraction.
Donekal et al. (Wed,) conducted a cohort in No history of previous cardiovascular events (n=1,230). Myocardial extracellular expansion (ECE) was evaluated on Circumferential shortening (B=-0.1, p=0.0001). Greater myocardial extracellular expansion was associated with reduced circumferential shortening (B=-0.1; P=0.0001), lower LV end-diastolic volume index, and lower LV end-diastolic mass index.