Objective: To determine the haemodynamic, structural and functional changes in insulin-resistant subjects Methods: Ten insulin-resistant subjects were studied. Asymptomatic subjects were studied as a control group. Blood pressure and body mass index were registered. Standard oral glucose tolerance test was performed. Plasma glucose and insulin were measured at baseline and 2 hours post glucose load. Insulin resistance index HOMAIR was calculated. Insulin resistance was considered if HOMAIR value was ≥ 2.5. Plasma norepinephrine (NE) was measured by HPLC. In order to examine the mass and cardiac function, bi-dimensional echocardiogram and imaging doppler tissue were performed. Results: Plasma glucose, insulin and HOMAIR were significantly higher in insulin-resistant subjects. There was no significant difference in plasma NE concentration between groups. The cardiac index was the only haemodynamic variable found to be significantly lowers in insulin resistant subjects. A significant positive correlation between NE with fasting and post load insulin concentration was observed. In control group, a significant negative correlation between diastolic blood pressure and post load insulin concentration was observed. The left ventricle systolic end-volume was positively and significantly correlated with insulin and HOMAIR in insulin-resistant subjects, but not in controls. Conclusions: Insulin levels may play role in modulating plasma NE levels, particularly in insulin-resistant subjects. The increased sympathetic activity in these subjects might lead to an abnormality in the left ventricle systolic end-volume and cardiac index, which might be the earlier adaptative haemodynamic changes due to cardiac post-load.