Progression to impaired fasting glucose over 3 years was associated with a greater increase in lactosylceramide (P=0.001), which independently correlated with increased arterial stiffness.
Cohort (n=602)
Are age-related changes in circulating metabolites associated with increased arterial stiffness in subjects progressing to impaired fasting glucose?
Age-related increases in circulating lactosylceramide are independently associated with increased arterial stiffness in subjects progressing to impaired fasting glucose.
p-value: p=0.001
OBJECTIVE: We investigated correlations between age-related changes in circulating metabolites and arterial stiffness in impaired fasting glucose (IFG). DESIGN, SUBJECTS, MEASUREMENT: This prospective cohort study included 602 healthy, normal fasting glucose (NFG) subjects (30-65 years old) who underwent triennial medical evaluation. After 3 years, 9·3% of subjects developed IFG (n = 56). Age, gender, BMI and fasting glucose were used to match the remaining NFG subjects (n = 546) that were included for the control group (NFG group, n = 80). RESULTS: After 3 years, levels of fasting glucose, insulin and malondialdehyde, and brachial-ankle pulse wave velocity (baPWV) were significantly greater in the IFG group than in the NFG group after adjusting for baseline values. The IFG group had a greater increase in lactosylceramide (P = 0·001, q < 0·05) and a greater reduction in phosphatidylcholine (PC) (18:0/20:4) than the NFG group. Multiple linear regression analysis showed that the change in baPWV was independently and positively associated with changes in fasting glucose and lactosylceramide. In all subjects, lactosylceramide levels positively correlated with changes in baPWV and fasting glucose, while premenopausal women were not shown, and negatively correlated with changes in PC and LDL particle size. CONCLUSIONS: This study indicates that age-related increase in circulating lactosylceramide is an independent predictor of increased arterial stiffness in subjects with impaired fasting glucose.
Jung et al. (Wed,) conducted a cohort in Impaired fasting glucose (n=602). Progression to impaired fasting glucose vs. Maintenance of normal fasting glucose was evaluated on Changes in brachial-ankle pulse wave velocity (baPWV) and circulating metabolites (p=0.001). Progression to impaired fasting glucose over 3 years was associated with a greater increase in lactosylceramide (P=0.001), which independently correlated with increased arterial stiffness.
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