Abstract
Maximal neuromuscular power is an important determinant of athletic performance and also quality of life, independence, and perhaps even mortality in patient populations. We have shown that dietary nitrate (NO 3 −), a source of nitric oxide (NO), improves muscle power in some, but not all, subjects. The present investigation was designed to identify factors contributing to this interindividual variability. Healthy men (n = 13) and women (n = 7) 22–79 year of age and weighing 52.1–114.9 kg were studied using a randomized, double‐blind, placebo‐controlled, crossover design. Subjects were tested 2 h after ingesting beetroot juice (BRJ) either containing or devoid of 12.3 ± 0.8 mmol of NO 3 −. Plasma NO 3 − and nitrite (NO 2 −) were measured as indicators of NO bioavailability and maximal knee extensor speed (V max), power (P max), and fatigability were determined via isokinetic dynamometry. On average, dietary NO 3 − increased (P < 0.05) P max by 4.4 ± 8.1%. Individual changes, however, ranged from −9.6 to +26.8%. This interindividual variability was not significantly correlated with age, body mass (inverse of NO 3 − dose per kg), body mass index (surrogate for body composition) or placebo trial V max or fatigue index (in vivo indicators of muscle fiber type distribution). In contrast, the relative increase in Pmax was significantly correlated (r = 0.60; P < 0.01) with the relative increase in plasma NO 2 − concentration. In multivariable analysis female sex also tended (P = 0.08) to be associated with a greater increase in Pmax. We conclude that the magnitude of the dietary NO 3 −‐induced increase in muscle power is dependent upon the magnitude of the resulting increase in plasma NO 2 − and possibly female sex.
Highlights
Maximal neuromuscular power is an important determinant of athletic performance and is highly significant from a clinical perspective, as reductions in power contribute to impaired quality of life, disability, and possibly even mortality in various patient populations (e.g., the elderly (Guralnik et al 1994), heart failure (HF) patients (Hu€lsmann et al 2004))
This was accompanied by a significant (P < 0.05) elevation in Vmax, which increased from 12.3 Æ 2.5 rad/sec in the placebo trial to 13.2 Æ 3.1 rad/sec in the NO3À trial
The purpose of this study was to identify factors contributing to interindividual variability in improvements in muscle contractile function resulting from dietary NO3À intake
Summary
Maximal neuromuscular power is an important determinant of athletic performance and is highly significant from a clinical perspective, as reductions in power contribute to impaired quality of life, disability, and possibly even mortality in various patient populations (e.g., the elderly (Guralnik et al 1994), heart failure (HF) patients (Hu€lsmann et al 2004)). High versus Low Responders To Dietary Nitrate (Lundberg and Weitzberg 2009), can influence muscle contractile properties (Haider and Folland 2014; Coggan et al.2015a,b; Justice et al 2015; Rimer et al 2016; Whitfield et al 2017). We observed a similar dietary NO3À-induced enhancement of maximal neuromuscular power in athletes (Rimer et al 2016), and an even greater increase (i.e., 13%) in patients with HF (Coggan et al 2015a). NO3À (or nitrite (NO2À)) -induced improvements in muscle contractility have been observed in some (Haider and Folland 2014; Justice et al.2015; Whitfield et al 2017), albeit not all (Hoon et al.2015), recent studies of voluntary or electrically stimulated isometric exercise
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