High sodium intake alters the hemodynamic response to mental stress in normotensive subjects after systemic beta adrenergic blockade

We tested the hypothesis that dietary Na + intake alters the hemodynamic response to mental stress (MS) in normotensive subjects, which could be mediated by β‐adrenergic receptors (ADRB). As part of an ongoing ADRB2 phenotyping protocol, 12 subjects (age 23±5 year) completed 5 days of low (10 mmol day −1 ), normal (150) and high (400) dietary Na + intake. We measured heart rate (ECG), mean arterial pressure (MAP, Finometer), and calculated stroke volume (SV), cardiac output (CO) and systemic vascular resistance (SVR) responses to arithmetic MS, before and after administration of propranolol. The high Na + diet decreased CO (6.3±0.3 vs. 5.7±0.3 l min −1 , p<0.01) and increased SVR (1187±47 vs. 1311±68 dynes s −1 cm −1 , p<0.01) at rest, but MAP was unchanged (92±2 vs. 93±3 mmHg, p=0.37). During MS, the increase in HR, CO, and MAP was not affected by diet, nor was the decrease in SVR. However, on the high Na + diet β‐blockade increased resting MAP (93±3 vs. 97±2 mmHg, p<0.01), while the absolute MAP response to MS was unchanged, the ΔMAP was blunted (7.3 vs. 4.3 %, p=0.03) and ΔSV was decreased (1.7±3.5 vs. −5.3±2.0 %, p=0.03). In conclusion, reactivity to MS was not influenced by dietary Na + , but systemic β‐blockade after high Na + blunted the SV response during MS. This may be suggestive of augmented ADRB function or blunted non‐ADRB mechanisms of ventricular function during MS after high Na + . Support: R‐01 HL‐089331 and CTSA RR‐024150.