Objective:The aim of the Advanced Approach to Arterial Stiffness study was to compare arterial stiffness measured simultaneously with two different methods in different age groups of middle-aged and older adults with or without metabolic syndrome (MetS). The specific effects of the different MetS components on arterial stiffness were also studied.Methods:This prospective, multicentre, international study included 2224 patients aged 40 years and older, 1664 with and 560 without MetS. Patients were enrolled in 32 centres from 18 European countries affiliated to the International Society of Vascular Health & Aging. Arterial stiffness was evaluated using the cardio-ankle vascular index (CAVI) and the carotid–femoral pulse wave velocity (CF-PWV) in four prespecified age groups: 40–49, 50–59, 60–74, 75–90 years. In this report, we present the baseline data of this study.Results:Both CF-PWV and CAVI increased with age, with a higher correlation coefficient for CAVI (comparison of coefficients P < 0.001). Age-adjusted and sex-adjusted values of CF-PWV and CAVI were weakly intercorrelated (r2 = 0.06, P < 0.001). Age-adjusted and sex-adjusted values for CF-PWV but not CAVI were higher in presence of MetS (CF-PWV: 9.57 ± 0.06 vs. 8.65 ± 0.10, P < 0.001; CAVI: 8.34 ± 0.03 vs. 8.29 ± 0.04, P = 0.40; mean ± SEM; MetS vs. no MetS). The absence of an overall effect of MetS on CAVI was related to the heterogeneous effects of the components of MetS on this parameter: CAVI was positively associated with the high glycaemia and high blood pressure components, whereas lacked significant associations with the HDL and triglycerides components while exhibiting a negative association with the overweight component. In contrast, all five MetS components showed positive associations with CF-PWV.Conclusion:This large European multicentre study reveals a differential impact of MetS and age on CAVI and CF-PWV and suggests that age may have a more pronounced effect on CAVI, whereas MetS increases CF-PWV but not CAVI. This important finding may be due to heterogeneous effects of MetS components on CAVI. The clinical significance of these original results will be assessed during the longitudinal phase of the study.
Prolonged high-fat diets have been shown to affect an organism's stress responsiveness at the neuroendocrine level. In the present study, the authors used a 7-day protocol of fat administration in adult rats of both sexes to investigate the early behavioral impact of a moderately fat (20%) diet, often used by Western societies, on rats' reaction to acute stress and novelty. Their results show that this diet can reduce the rats' active behavioral responses to subsequent stressors and influence their corticosterone secretion. Fat-fed male rats adopted a less active behavior to cope with forced swimming stress, whereas their exploratory behavior in the open field environment was rather increased compared with chow-fed males. Fat-fed female rats exhibited a less active behavioral response to both stress paradigms compared with their chow-fed counterparts. Fat diet abolished facilitation in corticosterone secretion following a subsequent stressor in both sexes. However, only in males did fat diet exaggerate corticosterone response to novelty, irrespective of the previous stress history of the rat. These data indicate that a short-term metabolic stress can modify the rats' stress coping strategy in interaction with the gender.
Objective:In adults, short leukocyte telomere length (LTL) is associated with metabolic disorders such as diabetes and obesity. The causality remains unclear since longitudinal studies do not show influence of metabolic disorders on LTL attrition. These associations could stem from early life interactions between telomere dynamics and metabolic disorders. To test this hypothesis, we measured, in obese children and their controls, LTL and its evolution over time and their associations with metabolic parameters.Design and method:73 children aged 2–10 years (mean 7.6 ± 2.0) at inclusion were followed between 2 and 4 years (one visit/year). Anthropometric measurements (weight, height, waist and hip circumferences), a body composition analysis and a complete biology were performed annually. LTL was measured by Southern blot and LTL attrition was calculated. Scores for metabolic parameters were created based on the mean value of the parameter throughout the study.Results:Mean LTL attrition was 67 ± 8 bp/year. Baseline LTL correlated negatively with BMI score (p = 0.02), fat percentage score (p = 0.01), glycemia score (p = 0.0007), and insulinemia score (p = 0.02). These associations persisted after adjustment for age and sex. Trends for negative associations were observed between baseline LTL and waist/hip score (p = 0.07), and Hb1Ac score (p = 0.07). No association was found between LTL attrition and any of the metabolic parameters.Conclusions:In young children, metabolic parameters are negatively associated with LTL but not with LTL attrition. These results indicate that either short TL is the cause of metabolic disorders or that these metabolic disorders increased LTL attrition very early in life probably before the age of 5 years.
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