Is aging acceleration mediating the association between hemoglobin glycation index and cardiovascular disease?

Abstract

AbstractBackgroundThe potential factors beyond HbA1c that increase the risk of cardiovascular disease and age more quickly in people with diabetes are not yet clear. This study sought to determine the prospective associations between discrepancies in observed and predicted HbA1c levels, also known as the hemoglobin glycation index (HGI), and cardiovascular disease risk. Additionally, the interactions of HGI with accelerated aging in relation to cardiovascular disease risk were evaluated.MethodThis cross-sectional study included 9167 adults from the National Health and Nutrition Examination Survey 1999–2010. The HGI is used to assess individual blood glucose variability, and phenotypic age acceleration is employed to evaluate accelerated aging. Regression analysis, restricted cubic spline and mediation analysis explore the potential roles of phenotypic age acceleration in the relationship between HGI and CVD mortality.ResultsAmong the 9167 eligible participants (aged 20 years or older), 4390 (47.9%) were males, and the median (IQR) age was 48.0 (15.0) years; 4403 (48.0%) had prediabetes and diabetes, and 985 (10.7%) had cardiovascular disease. Restricted cubic splines showed that the association between HGI and CVD risk was nonlinear (p < 0.001). The greater the negative value of the HGI was, the greater the risk of CVD, and the association was independent of age, sex and HbA1c. Mediation analyses confirmed that phenotypic age acceleration acted as a mediator in the association between HGI and CVD risk (mediated effect: OR, 68.7%, 95% CI: 36.4%-153%,P=0.002).Conclusion and RelevanceThe HGI serves as a robust biomarker for assessing the acceleration of aging, regardless of HbA1c levels, and is associated with increased susceptibility to cardiovascular disease, particularly among individuals characterized by negative HGI.