Prevention of cardiovascular complications is one of the objectives of antihyperiensive therapy. However, the expected effect cannot be fully achieved by me- ans of the blood pressure control only. The authors studied the effect of captopril administration in SHR rats by monitoring the following parameters: arterial blood pressure, rheological properties of blood, and endothelial index of vasodilator activity (IVA), as well as their correlations. In SHR rats, the systolic blood pressure (SBP) and diastolic blood pressure (DBP) were higher by 28 - 33% as compared to WKY rats. In comparison to normotensive animals, the blood vis- cosity (BV) at shear rates from 30 to 450 sec -1 in SHR rats was increased by 12 - 15% (p = 0.020), the aggregation of red blood cells was increased by 22% (p = 0.012), and their plasticity in the range of shear stresses within 3 - 20 Pa was decreased by 2 - 8% (p = 0.028). The IVA value in SHR rats was lower by 26 % (p = 0.030) than that in WKY rats. The administration of captopril decreased the SBP and DBP values down to the level in normotensive animals, but did not influence the rheological properties of blood and its IVA value. In WKY rats, the BV exhibited reliable correlation with IVA (with r from +0.60 ai +0.67, p <0.05) at shear rates ranging within 30 - 450 sec -1, while the rheological parameters were correlated with neither SBP nor DBP. In SHR rats, the BV corre- lated with IVA only at 450 sec -1 (with r =+0.50, p = 0.025), and there were relationships between SBP and BV (r = + 0.64, p = 0.008) and the aggregation in- dex (r = +0.69, p = 0.003). Rats treated with captopril showed no correlations between hemorheological and hemodynamic parameters. Therefore, captopril decreases the arterial blood pressure, but it also violates the contour of vascular tone regulation associated with changes in shear stress on the vascular wall, which plays an important role in ensuring adequate local blood flow.