Arterial stiffness and peripheral vascular resistance in newly diagnosed metabolic syndrome patients

Besides autonomic alterations, metabolic syndrome (MetS) causes vascular dysfunction related to cardiovascular events and death. Since insulin resistance is associated with sympathetic hyperactivation, we tested the hypothesis that the presence of impaired fasting glucose (IFG) is the main cause of structural and functional changes of large and small vessels via elevated sympathetic tonus in these patients. We evaluated never treated, newly diagnosed MetS (ATP-III) patients divided into: impaired fasting glucose >100mg/dL (MetS+IFG, n=35; 50±1 y) and normal fasting glucose <100mg/dL (MetS-IFG, n=24, 46±1 y). A healthy control group was also studied (C, n=17, 50±1 y). We measured the arterial stiffness (pulse wave velocity, PWV), muscle sympathetic nerve activity (MSNA, microneurography), forearm blood flow (FBF, plethysmography), mean blood pressure (MBP, oscillometric), peripheral vascular resistance (PVR=MBP/FBF) and asymmetric dimethylarginine (ADMA). MetS+IFG had higher PWV than MetS-IFG and C (8.0[7.2-8.6], 7.3[6.9-7.9] and 6.9[6.6-7.2]m/s, respectively, P=0.001), whereas SMet-GLI was similar to CS. Moreover, MetS+IFG was similar to MetS-IFG, but had higher PVR than C (P=0.008) and SMet-GLI was similar to CS. In addition, MetS+IFG had higher MSNA than MetS-IFG and C; whereas MetS-IFG had higher MSNA than C (31 +- 1; 26+- 1; 19+-1 bursts/min, P < 0.001). ADMA were similar among groups (0.62 [0.56-0.71] vs 0.67 [0.59-0.92] and 0.60 [0.54-1.43] umol/L). Among MetS risk factors, IFG was predictor of increased MSNA. Further, MSNA was associated with PWV (R=0.39; P=0.002) and PVR (R=0.30, P=0.034). In conclusion, sympathetic hyperactivation, which is enhanced in the presence of high blood glucose, is the basic mechanism that could explain, at least in part, the increase in PWV and PVR. IFG appears to be the main risk factor in the vascular function and structure damage in MetS patients (AU)