Effects of Dietary Nitrate Supplementation on Physiological Responses, Cognitive Function, and Exercise Performance at Moderate and Very-High Simulated Altitude

Purpose: Nitric oxide (NO) bioavailability is reduced during acute altitude exposure, contributing toward the decline in physiological and cognitive function in this environment. This study evaluated the effects of nitrate ([Formula: see text]) supplementation on NO bioavailability, physiological and cognitive function, and exercise performance at moderate and very-high simulated altitude. Methods:Ten males (mean (SD): [Formula: see text]: 60.9 (10.1) ml·kg(−1)·min(−1)) rested and performed exercise twice at moderate (~14.0% O(2); ~3,000 m) and twice at very-high (~11.7% O(2); ~4,300 m) simulated altitude. Participants ingested either 140 ml concentrated [Formula: see text]-rich (BRJ; ~12.5 mmol [Formula: see text]) or [Formula: see text]-deplete (PLA; 0.01 mmol [Formula: see text]) beetroot juice 2 h before each trial. Participants rested for 45 min in normobaric hypoxia prior to completing an exercise task. Exercise comprised a 45 min walk at 30% [Formula: see text] and a 3 km time-trial (TT), both conducted on a treadmill at a 10% gradient whilst carrying a 10 kg backpack to simulate altitude hiking. Plasma nitrite concentration ([[Formula: see text]]), peripheral oxygen saturation (SpO(2)), pulmonary oxygen uptake ([Formula: see text]), muscle and cerebral oxygenation, and cognitive function were measured throughout. Results: Pre-exercise plasma [[Formula: see text]] was significantly elevated in BRJ compared with PLA (p = 0.001). Pulmonary [Formula: see text] was reduced (p = 0.020), and SpO(2) was elevated (p = 0.005) during steady-state exercise in BRJ compared with PLA, with similar effects at both altitudes. BRJ supplementation enhanced 3 km TT performance relative to PLA by 3.8% [1,653.9 (261.3) vs. 1718.7 (213.0) s] and 4.2% [1,809.8 (262.0) vs. 1,889.1 (203.9) s] at 3,000 and 4,300 m, respectively (p = 0.019). Oxygenation of the gastrocnemius was elevated during the TT consequent to BRJ (p = 0.011). The number of false alarms during the Rapid Visual Information Processing Task tended to be lower with BRJ compared with PLA prior to altitude exposure (p = 0.056). Performance in all other cognitive tasks did not differ significantly between BRJ and PLA at any measurement point (p ≥ 0.141). Conclusion: This study suggests that BRJ improves physiological function and exercise performance, but not cognitive function, at simulated moderate and very-high altitude.