Beetroot (Beta vulgaris) Extract

BIO

Found In
Beetroot, spinach, kale

Form
Beetroot (Beta vulgaris) Extract Standardized to 6.5% Dietary Nitrates

Source
Beetroot (Beta vulgaris) Extract

Beetroot Extract contains dietary nitrates that increase the levels of nitric oxide (NO). It has a role in multiple functions related to increased blood flow, gas exchange, mitochondrial biogenesis and efficiency, and strengthening of muscle contraction. Supplementation with dietary nitrate has ergogenic effects on cardiorespiratory endurance which benefits athletic performance (1).

KEY BENEFITS

  • Supports optimal sports performance
  • Improved energy, stamina, and endurance
  • May support respiratory health and healthy blood pressure levels
  • Promote oxygen efficiency and skeletal muscle blood flow
  • Helps to increase O2 uptake (VO2) during skeletal muscle contractions & maintains muscle glycogen concentration

Description

Beetroot extract contains high concentration of dietary nitrates.

Dietary Nitrates help with blood flow to the muscles while supporting oxygen uptake by the muscles, making them ideal for sports performance.

Beetroot Extract (Dietary Nitrates) has a positive effect on cardiorespiratory endurance. Cardiorespiratory endurance is defined ability of the circulatory (heart) and respiratory (lungs) systems to supply oxygen during prolonged physical activity and to eliminate fatigue. It is a health-related component of physical fitness in all sports in which adenosine triphosphate (ATP) is resynthesized. It is mainly involved in aerobic metabolism or oxidative processes that produce energy (1).

Mode of Action

  • Once ingested, the nitrate (NO3–) is reduced to nitrite (NO2–), by anaerobic bacteria in the oral cavity by the action of nitrate reductase enzymes and then to nitric oxide (NO) in the stomach. This physiological mechanism depends on the entero-salivary circulation of inorganic nitrate without involving NOS activity (1).
  • Once in the acidic stomach, nitrite is instantly decomposed to convert to NO and other nitrogen oxides performing determinant physiological functions. Nitrate and remaining nitrite is absorbed from the intestine into the circulation, which can become bioactive NO in tissues and blood under physiological hypoxia (1).
  • NO induces several physiological mechanisms that influence O2 utilization during contraction skeletal muscle. Physiological mechanisms for NO2– reduction are facilitated by hypoxic conditions; therefore, NO (vasodilator) is produced in those parts of muscle that are consuming or in need of more O2. This mechanism would allow local blood flow to adapt to O2 requirement, providing within skeletal muscle an adequate homogeneous distribution. This physiological response could be positive in terms of muscle function during exercise improving performance (1).
  • Nitric oxide, is a vasodilator that can increase blood flow to muscles and promote oxygen transfer in the muscle. Additional physiological benefits of NO include improved mitochondrial efficiency and glucose uptake in muscle and enhanced muscle contraction and relaxation processes (1).

It is known that NO has an important role in the adaptation processes under hypoxic conditions, the vasodilatory effects of NO may favor oxygen delivery, and supplementation with beetroot juice could be effective in reducing the ergolytic effects of hypoxia on cardiorespiratory endurance (1).

Athletic Performance

  • A study in trained cyclists found that beetroot juice supplementation improves performance by 0.8% in a 50-mile test. These findings suggests that beetroot juice might have an ergogenic effect, increasing performance in prolonged cycling events that require alternations in relative intensity, from moderate to high VO2max, which is very characteristic of the stages of cycling races (2).
  • NO3 – supplementation increased the capacity for muscle diffusive O2 transport across active muscle sites, as reflected by higher end-exercise deoxy [Hb + Mb] and total [Hb + Mb], which correlated with a lower VO2Sc amplitude. These helps understand the mechanisms by which short-term NO3– supplementation can improve efficiency during continuous submaximal exercise (3).
  • It appears that acute supplementation with beetroot juice increases the power output with the same VO2 levels. This is an interesting finding for athletes as there is evidence that the economy is a key factor to improve cardio-respiratory performance increasing energy efficiency in endurance sports modalities. Time to exhaustion at several intensities (60%–100% VO2max, MAP or VT1) is another usual performance parameter that is improved with acute beetroot supplementation (1, 4).
  • Another study find out that, VO2 was not different among conditions over the first 90 min of exercise but was lower at 120 min in study group compared to placebo. The decline in muscle glycogen concentration over the 2-h exercise bout was attenuated in study group (~28% decline) compared with placebo (~44% decline) (5).

Thus, beetroot supplementation before and during prolonged moderate-intensity exercise attenuated the progressive rise in VO2 over time and appeared to reduce muscle glycogen depletion (5).

The Unived difference

Unived uses 100% natural, 100% water soluble, 100% solvent-free, beetroot extract which is standardized to 6.5% dietary nitrates, which as we understand is the highest concentration of beet-derived nitrates in the World at the moment. It is produced from non-GMO beets, using a aqueous extraction process, making it 100% solvent free, and with minimal oxalate content.

Evidence-Based or Bust

We use ingredients backed by a significant body of research that is growing each day.

  1. Effects of Beetroot Juice Supplementation on Cardiorespiratory Endurance in Athletes. A Systematic Review
    Domínguez, R., Cuenca, E., Maté-Muñoz, J. L., García-Fernández, P., Serra-Paya, N., Estevan, M. C., Herreros, P. V., & Garnacho-Castaño, M. V. (2017). Effects of Beetroot Juice Supplementation on Cardiorespiratory Endurance in Athletes. A Systematic Review. Nutrients, 9(1), 43.
  2. Influence of acute dietary nitrate supplementation on 50 mile time trial performance in well-trained cyclists
    Wilkerson, D. P., Hayward, G. M., Bailey, S. J., Vanhatalo, A., Blackwell, J. R., & Jones, A. M. (2012). Influence of acute dietary nitrate supplementation on 50 mile time trial performance in well-trained cyclists. European journal of applied physiology, 112(12), 4127–4134.
  3. The effect of dietary nitrate supplementation on the spatial heterogeneity of quadriceps deoxygenation during heavy-intensity cycling
    Breese, B. C., Poole, D. C., Okushima, D., Bailey, S. J., Jones, A. M., Kondo, N., ... & Koga, S. (2017). The effect of dietary nitrate supplementation on the spatial heterogeneity of quadriceps deoxygenation during heavy‐intensity cycling. Physiological reports, 5(14), e13340.
  4. Nitrate supplementation's improvement of 10-km time-trial performance in trained cyclists
    Cermak, N. M., Gibala, M. J., & van Loon, L. J. (2012). Nitrate supplementation's improvement of 10-km time-trial performance in trained cyclists. International journal of sport nutrition and exercise metabolism, 22(1), 64–71.
  5. Beetroot juice ingestion during prolonged moderate-intensity exercise attenuates progressive rise in O2 uptake
    Tan, R., Wylie, L. J., Thompson, C., Blackwell, J. R., Bailey, S. J., Vanhatalo, A., & Jones, A. M. (2018). Beetroot juice ingestion during prolonged moderate-intensity exercise attenuates progressive rise in O2 uptake. Journal of Applied Physiology, 124(5), 1254-1263.

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Studies on Beetroot (Beta vulgaris) Extract and Counting

Beetroot extract standardized to Dietary Nitrates help with blood flow to the muscles while supporting oxygen uptake by the muscles, making them ideal for sports performance.