Relation of Insulin Resistance to Longitudinal Changes in Left Ventricular Structure and Function in a General Population.

BACKGROUND

Population data on the longitudinal changes of left ventricular (LV) structure and function in relation to insulin resistance are sparse. Therefore, we assessed in a general population whether hyperinsulinemia predicts longitudinal changes in LV and arterial characteristics.

METHODS AND RESULTS

In 627 participants (mean age 50.7 years, 51.4% women), we assessed echocardiographic indexes of LV structure and function and carotid-femoral pulse wave velocity by applanation tonometry at baseline and after 4.7 years. We regressed longitudinal changes in these indexes on baseline insulin and its change during follow-up, and reported standardized effect sizes as a percentage of the SD of LV changes associated with a doubling of insulin. After adjustment, higher baseline insulin predicted a greater temporal increase in LV mass index (effect size: +15.1%) and E/e' ratio (+22.1%), and a greater decrease in e' peak and longitudinal strain (-11.2% to -17.1%). A greater increase in insulin during follow-up related to a greater increase in LV mass index (+10.7%) and decline in ejection fraction and longitudinal strain (-11.4% to -15.7%). Participants who became or remained insulin resistant during follow-up experienced worse changes in longitudinal strain, E/e', and LV mass index as compared with participants who did not develop or had improved insulin resistance over time (≤0.033). Moreover, multivariable-adjusted increase in pulse wave velocity was higher in participants with diabetes mellitus than in participants without diabetes mellitus (+1.46 m/s versus +0.71 m/s; =0.039).

CONCLUSIONS

Hyperinsulinemia at baseline and during follow-up predicted worsening of LV function and remodeling over time. Our findings underline the importance of management of insulin resistance.