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The effect of red and yellow beetroot juices on blood pressure in free-living normotensive males: a pilot study

Published online by Cambridge University Press:  23 September 2015

H.M. Cheng ,
H.K. Cheng  and
T.W. George
H.M. Cheng
Affiliation:
Department of Applied Sciences, Faculty of Health and Life Sciences, Northumbria University, Newcastle upon Tyne, NE1 8ST
H.K. Cheng
Affiliation:
Department of Applied Sciences, Faculty of Health and Life Sciences, Northumbria University, Newcastle upon Tyne, NE1 8ST
T.W. George
Affiliation:
Department of Applied Sciences, Faculty of Health and Life Sciences, Northumbria University, Newcastle upon Tyne, NE1 8ST
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Abstract

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Proceedings of the Nutrition Society , Volume 74 , Issue OCE5: Summer Meeting, 6–9 July 2015, The future of animal products in the human diet: health and environmental concerns , 2015 , E333
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Copyright © The Authors 2015 

Individuals with high blood pressure (BP) have a two to three-fold increase in the risk of developing cardiovascular disease when compared with healthy individuals( Reference Wang 1 ). High nitrate diets have been shown to lower BP( Reference Hobbs, George and Lovegrove 2 ). Beetroot juice (BJ) is rich in nitrate and has been shown to significantly reduce systolic BP (SBP) and diastolic BP (DBP) in normotensive individuals when given as a 250 g dose( Reference Hobbs 3 ). The peak reduction in SBP and DBP occurred at 2–3 hr. Beetroot also contains betalains which have been shown to act as antioxidants, inhibit lipid peroxidation and reduce ICAM1 expression in vitro ( Reference Halvorsen 4 , Reference Kanner, Harel and Granit 5 ). Betalains are divided into two subclasses: betacyanins and betaxanthins, responsible for the colour of red and yellow beetroot respectively( Reference Kujala, Loponen and Pihlaja 6 ). The present study investigated whether red and yellow BJ affects BP to the same extent and if betalains contribute an additional differential effect.

Seven normotensive males, aged 18–45 years, participated in a randomised, controlled, cross-over study investigating the effect of high nitrate juice (red or yellow beetroot) on BP compared to a low nitrate control (carrot juice). Following a 1 day low nitrate diet, fasted participants had an ambulatory blood pressure (ABP) monitor fitted. After baseline BP was recorded they consumed 250 g of juice and were then free to go about their normal daily activities. ABP was measured for 24 hr post consumption. The participants consumed all three juices in a random order with at least one week washout period between treatments.

Overall, there was a significant difference in absolute change in SBP during the first 4 hours between treatments (P = 0·031), but no time by treatment effect (Fig. 1a). When comparing the area under the ΔSBP curves (Fig. 1b), there was a significant difference between carrot and yellow beetroot juices (P = 0·023), but no significant difference between red and yellow BJ. There was no significant difference between juices on DBP.

Fig. 1. (a) The mean absolute change of SBP in first 4 hr following juice consumption (n = 7). There was a significant treatment effect (P = 0·031), but no treatment by time effect. (b) The mean area under the curve of absolute change of SBP in first 4 hr following juice consumption (n = 7). There was a significant difference between carrot and yellow beetroot juice (P = 0·023).

Preliminary data suggests that yellow BJ decreased SBP more than carrot juice. Despite being lower in nitrate, carrot juice also reduced BP to the same extent as red BJ, which could be due it containing sufficient nitrate to exert a BP lowering effect. There was no significant difference between beetroot colour variants on SBP and DBP, suggesting there is no differential effect of betalains on BP.

References

1. Wang, WY et al. (2006) Hypertension 47, 403409.Google Scholar
2. Hobbs, DA, George, TW & Lovegrove, JA (2013) Nutrition Research Reviews 26, 210222.Google Scholar
3. Hobbs, DA et al. (2012) Br. J. Nutr 108, 20662074.Google Scholar
4. Halvorsen, BL et al. (2002) J. Nutr 132, 461471.Google Scholar
5. Kanner, J, Harel, S & Granit, R (2001) J. Agric. Food Chem 49, 51785185.Google Scholar
6. Kujala, T, Loponen, J & Pihlaja, K (2001) Z.Naturforsch.(C) 56, 343348.CrossRefGoogle Scholar
Figure 0

Fig. 1. (a) The mean absolute change of SBP in first 4 hr following juice consumption (n = 7). There was a significant treatment effect (P = 0·031), but no treatment by time effect. (b) The mean area under the curve of absolute change of SBP in first 4 hr following juice consumption (n = 7). There was a significant difference between carrot and yellow beetroot juice (P = 0·023).