Greater body mass index and central adiposity were significantly associated with worse left ventricular longitudinal strain, radial strain, and longitudinal synchrony (P<0.0001).
Observational (n=6,231)
Are obesity-related cardiometabolic phenotypes associated with worse left ventricular mechanical function in a community-based cohort?
Central obesity and related cardiometabolic traits are associated with subclinical worsening of left ventricular mechanics independent of overall body mass index.
valor p: p=<0.0001
Background— Obesity and cardiometabolic dysfunction are associated with increased risk of heart failure and other cardiovascular diseases. We sought to examine the association of cardiometabolic traits with left ventricular (LV) cardiac mechanics. We hypothesized that specific obesity-related phenotypes are associated with distinct aspects of LV strain. Methods and Results— We evaluated the associations of obesity-related phenotypes, including central adiposity, diabetes mellitus, insulin resistance, and circulating adipokine concentrations with echocardiographic measures of LV mechanical function among participants of the Framingham Heart Study Offspring and Third Generation cohorts. Among 6231 participants, the mean age was 51±16 years, and 54% were women. Greater body mass index was associated with worse LV longitudinal strain, radial strain (apical view), and longitudinal synchrony (multivariable-adjusted P <0.0001). After accounting for body mass index, we found that central adiposity, as measured by waist circumference, was associated with worse global longitudinal strain and synchrony ( P ≤0.006). Measures of insulin resistance, dyslipidemia, and diabetes mellitus also were associated with distinct aspects of LV mechanical function. Circulating leptin concentrations were associated with global longitudinal and radial strain (apical view, P <0.0001), whereas no such association was found with leptin receptor, adiponectin, or C-reactive protein. Conclusions— Our findings highlight the association of central obesity and related cardiometabolic phenotypes above and beyond body mass index with subclinical measures of LV mechanical function. Interestingly, obesity-related traits were associated with distinct aspects of LV mechanics, underscoring potential differential effects along specific LV planes of deformation. These findings may shed light onto obesity-related cardiac remodeling and heart failure.
Ho et al. (Mon,) conducted a observational in Community-dwelling individuals (n=6,231). Obesity-related phenotypes (body mass index, central adiposity, insulin resistance, adipokines) was evaluated on Echocardiographic measures of left ventricular mechanical function (longitudinal strain, radial strain, and longitudinal synchrony) (p=<0.0001). Greater body mass index and central adiposity were significantly associated with worse left ventricular longitudinal strain, radial strain, and longitudinal synchrony (P<0.0001).
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: