Strong Scientific Evidence Supporting Beetroot Juice for Sport Performance

Beetroot Juice and Sport Performance: The Australian Institute of Sport (AIS) acknowledges that beetroot juice, can be beneficial for athletic performance, especially in endurance events and high-intensity intermittent. The AIS classifies beetroot as a "Group A" supplement, meaning there's strong scientific evidence supporting its use for specific sports situations. 

Beetroot Juice for Sport Performance: Dietary Nitrate & Beetroot Juice

Dietary nitrate may be used to enhance the availability in the body of a molecule called nitric oxide (NO). Beetroot contains nitrate and Beetroot Juice beneficial for Sport Performance.

What is it?

• Dietary nitrate may be used to enhance the availability in the body of a molecule called nitric oxide (NO). NO is important for a variety of functions that are essential to life, and important to exercise performance, including the regulation of blood pressure and blood flow, mitochondrial respiration, muscle contraction and immune function.
• In our bodies, nitrate is produced continuously because it is formed when the amino acid, arginine, is oxidized to generate NO. Until recently, it was believed that this nitrate had no biological function, but it has now been discovered that it can be recycled to form NO. Specifically, nitrate can be converted into nitrite (this process relies principally on the action of bacteria in the mouth) and then to NO. This nitrate-nitrite-NO pathway might be particularly important when oxygen is in short supply such as in muscle during exercise.
• In addition to the nitrate that is produced within our bodies, the amount of nitrate and nitrite carried in our blood, and stored in our muscles and other organs, can be greatly augmented by the consumption of nitrate in our diet. The main dietary sources of nitrate are vegetables (particularly leafy greens) and some fruits, along with processed meats (where it is added as a preservative) and drinking water.
• Increasing dietary nitrate intake, or using a nitrate supplement, may increase NO bioavailability and have the potential to enhance exercise performance in situations where NO production might otherwise be compromised.1
• The average dietary intake of adults in the US, Europe and Australia is 1-2 mmol/d (~60-120 mg/d) with vegetables providing about 80% of the total. Vegetarians are likely to consume higher nitrate intakes and people who follow “heart-friendly” eating plans such as the Dietary  Approaches to Stop Hypertension (‘DASH’) diet are also likely to achieve higher nitrate intakes.
• Interest in beetroot juice for enhancing sports performance arises principally from research by Professor Andy Jones and colleagues (University of Exeter, UK) which has used this juice as a rich source of dietary nitrate.
• Nitrate consumed in the diet is rapidly absorbed via the stomach and small intestine, with plasma nitrate levels peaking ~ 1 hour after nitrate ingestion. A significant proportion of the plasma nitrate enters the entero-salivary system and is extracted by the salivary glands and concentrated in the saliva. Bacteria in the mouth convert nitrate to nitrite as part of their metabolism and this nitrite is subsequently swallowed. Some of the nitrite is converted to NO and other reactive nitrogen species in the acidic stomach environment but the remainder enters the small intestine and is absorbed into the blood where it can be transported around the body and reduced to NO if required.
• Plasma nitrite concentrations peak at ~ 2.5 h following the intake of dietary nitrate. Factors that interfere with salivary nitrate handling - such as the use of antibacterial mouthwashes to reduce mouth levels of bacteria - may markedly limit this rise in plasma nitrite and blunt any  subsequent physiological effects.
• Nitrate supplementation has been shown to enhance some of the effects of NO, even in healthy people. For example, supplementation with dietary nitrate sources or nitrate salts (such as sodium or potassium nitrate) has been shown to reduce blood pressure even in individuals with  normal blood pressure.
• Original and subsequent studies have reported that both chronic (3-15 d) and acute (single dose prior to exercise) beetroot juice supplementation can enhance exercise economy (i.e. reduce the oxygen cost of exercise), exercise capacity and sports performance.1
• Aerobic fitness levels influence the efficacy of dietary nitrate, with highly-trained endurance athletes (with VO2max greater than 65 ml/kg/min) not benefitting significantly from nitrate supplementation.2 Few studies have investigated the impact of nitrate supplementation on female athletes.
• Recent studies indicate that dietary nitrate supplementation can enhance muscle power, sprint, multiple-sprint, and high-intensity intermittent exercise performance, thereby widening the potential application of nitrate supplementation to a greater number of both individual and team sports.

Beetroot Juice and Sport Performance: What Does it Look like?

• Nitrate is abundant in green leafy vegetables; increasing the dietary intake of these vegetables is one way to augment nitrate intake. Table 1 summarizes the nitrate content of a range of vegetables, with the best sources being green leafy plants and vegetables grown in low light conditions such as plant roots. The nitrate content of a specific vegetable source can vary considerably from plant to plant and will depend on factors such as climate, soil conditions and time since harvest.
• Typical nitrate dose used in recent studies of sports/exercise performance: ~ 6-8 mmol or ~350-500 mg nitrate provided by a single serve of beetroot juice concentrate, consumed ~ 2-3 hours pre-exercise. As an example, a 70ml shot of Beet It Sport Nitrate (James White, UK, Oz Beet It, Australia) contains 400mg nitrate.
• Preparation of own beetroot sources (i.e. cooked vegetable, relish, juice) may not result in a reliable or sufficiently high nitrate dose for targeted acute supplementation pre-exercise. However, encouraging a higher daily vegetable intake is likely to have numerous benefits, including an increased daily nitrate intake
• Nitrate may also be purchased as sodium or potassium nitrate which is used as a fertilizer and preservative of meats, but this is not recommended, and it is essential not to confuse nitrate with nitrite.
• Based on research demonstrating that nitrate can enhance exercise performance, a large number of beetroot-based supplements are now marketed to athletes, including juice concentrates, gels and powders. Few of these have been independently tested to determine their nitrate content. Preliminary research supports preferential use of beetroot juice concentrates.4, 5
• It is important that the product is guaranteed to contain at least 5-6 mmol nitrate for it to be effective. Preliminary research indicates however, taking more than 10-12 mmol is no more effective than taking 6-8 mmol.6

Beetroot Juice  & Sport Performance: How and when to use?

Recent studies have identified several situations in which exercise capacity or performance has been enhanced by the pre-exercise consumption of beetroot juice/nitrate: these include cycling and running events of 4-30 minutes duration2 as well as intermittent exercise protocols designed to reflect the demands of team sports.

• Supplementation may also be useful in supporting training, and perhaps also during exposure to hypoxic conditions e.g. altitude training.
• It is recommended that a 6-8 mmol (~350-500mg) nitrate dose is consumed 2-3 hours prior to the commencement of exercise or competition. Consuming 6-8 mmol of nitrate daily for several days prior to competition is another possible strategy7. As an example, an ingestion protocol used successfully amongst sprint kayakers includes the following, with athletes informed to avoid the use of mouthwashes as this can moderate conversion of nitrate to NO.

Concerns - Beetroot Juice Sport Performance

• During the 1960s, health authorities became concerned about the nitrate and nitrite content of foods, blaming nitrite for health issues including “blue baby syndrome” in infants and an increased risk of colon cancer based on studies in rats. As a consequence, some countries have limits on the permitted levels of nitrate in foods and drinking water.
• In contrast to these previous concerns about the safety of intake of nitrate and nitrite, which are in any case disputed, there is now evidence of benefits to cardiovascular and metabolic health. Indeed, it has been suggested that some of the health benefits of a diet high in vegetables are due, at least in part, to its nitrate content.
• Consuming nitrate in its natural form (i.e., in vegetables and fruits), where it is found alongside antioxidants and polyphenols, rather than via processed meats, is likely to prevent or suppress the formation of any potentially-harmful compounds.
• While it is unlikely that consumption of beetroot juice or other vegetable sources of nitrate is harmful (and may, in fact, may offer other health benefits), chronic use of nitrate supplements has not been well studied.
• Beetroot juice, particularly in concentrated form and larger doses, sometimes causes mild gastrointestinal discomfort. Athletes who are inclined to use nitrate supplementation pre-competition are advised to first practice in training.
• The consumption of beetroot/juice may cause a temporary pink coloration of urine and stools. This is a harmless side-effect.
• Use of sodium nitrate supplements may be associated with a greater risk of misjudging dosages. Some athletes may also mistakenly (or deliberately) use sodium or potassium nitrite as a supplement and therefore expose themselves to toxic effects such as methemoglobinaemia.

More Information about Beetroot Juice and Sport Performance:

Sports Dietitians Australia 
www.sportsdietitians.com.au/factsheets/supplements/beetroot-juice-nitrate/

Gatorade Sports Science Institute
secure.footprint.net/gatorade/prd/gssiweb/sf_libraries/sse-docs/jones_sse_156-final.pdf?sfvrsn=2

Supplement safety information
www.sportintegrity.gov.au/what-we-do/anti-doping/supplements-sport

Table 1: Typical nitrate content of vegetables (taken from Bryan NS and Hord NG (2010). Dietary Nitrates and nitrites: in: Bryan N (ed), Food Nutrition and the Nitric Oxide pathway. Destech Pub Inc: Lancaster, PA, pp 59-77)

Beetroot Juice Sport Performance: References

Beetroot Juice Sport Performance Article from: https://www.ais.gov.au/nutrition/supplements/group_a#dietary_nitrate_beetroot_juice

• Jones, A. M., Thompson, C., Wylie, L. J., & Vanhatalo, A. (2018) Dietary Nitrate and Physical Performance. ARN, 38, 303-328.
• Senefeld, J. W., Wiggins, C. C., Regimbal, R. J., Dominelli, P. B., Baker, S. E., & Joyner, M. J. (2020). Ergogenic Effect of Nitrate Supplementation: A Systematic Review and Meta-analysis. Med Sci Sport Exerc, 52, 2250-2261.
• Thompson, C., Vanhatalo, A., Jell, H., Fulford, J., Carter, J., Nyman, L., Bailey, S. J., & Jones, A. M. (2016). Dietary nitrate supplementation improves sprint and high-intensity intermittent running performance. NO, 61, 55-61.
• Gallardo, E. J., & Coggan, A. R. (2019). What is in your beet juice? Nitrate and nitrite content of beet juice products marketed to athletes. Int J Sport Nutr Exerc Metab, 29: 345-349.
• McDonagh, S. T. J., Wylie, L. J., Webster, J. M. A., Vanhatalo, A., & Jones, A. M. (2018). Influence of dietary nitrate food forms on nitrate metabolism and blood pressure in healthy normotensive adults. Nitric Oxide, 72: 66-74.
• Wylie, L. J., Kelly, J., Bailey, S. J., Blackwell, J. R., Skiba, P. F., Winyard, P. G., Jeukendrup, A. E., Vanhatalo, A., & Jones, A. M. (2013). Beetroot juice and exercise: pharmacodynamic and dose-response relationships. J Appl Physiol, 115, 325-336.
• Jones, A. M., Vanhatalo, A., Seals, D. R., Rossman, M. J., Piknova, B., & Jonvik, K. L. (2020). Dietary Nitrate and Nitric Oxide Metabolism: Mouth, Circulation, Skeletal Muscle, and Exercise Performance. Med Sci Sport Exerc, doi: 10.1249

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