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Beetroot's effect on blood pressure is uncertain

"Beetroot 'can lower blood pressure'," BBC News confidently reports. But the truth about whether beetroot can really lower your blood pressure is a little more unclear than the headlines suggest. The news comes from…

"Beetroot 'can lower blood pressure'," BBC News confidently reports. But the truth about whether beetroot can really lower your blood pressure is a little more unclear than the headlines suggest. The news comes from a study looking at the effect of nitrates on blood pressure in rats and a very small trial in people with high blood pressure.

Nitrates are molecules that occur in some foods, particularly in beetroot. Previous studies have suggested that nitrates can widen the blood vessels, which can lead to a drop in blood pressure. This study found that people who drank about one glass of beetroot juice (or rats given a dose of nitrate) had a short-term reduction in blood pressure.

The researchers argue that the use of beetroot juice, or other nitrate-rich foods, could be a useful extra treatment option for people with high blood pressure.

Despite the interesting findings, the study has some significant limitations:

Larger studies assessing the long-term effects of beetroot juice on high blood pressure and its complications are needed before it can be recommended as a way of lowering blood pressure.


Nitrate-rich foods

If you are not a particular fan of beetroot or beetroot juice, other nitrate-rich foods are readily available:

  • celery
  • lettuce
  • spinach
  • leek
  • parsley
  • Chinese cabbage

Where did the story come from?

The study was carried out by researchers from the William Harvey Research Institute at Barts and The London School of Medicine and Dentistry, Queen Mary University of London, the University of Exeter Medical School, and Kings College London, all in the UK.

It was funded by the British Heart Foundation and was published in the peer-reviewed medical journal Hypertension.

Two of the study's authors disclose a potential conflict of interest as directors of HeartBeet Limited, which appears to be a company that sells beetroot juice and is listed at the same address as the firm that supplied the beetroot juice used in the study.

The headlines in the UK media proclaiming that beetroot "can lower blood pressure" are premature. It would be more accurate, if less sexy, to qualify this by adding "in the very short term". This research did not look at the effect of nitrate on blood pressure for longer than a 24-hour period and we don't know enough about its lasting effects.


What kind of research was this?

The researchers carried out two types of investigations. They first investigated the effect of ingested nitrate on blood pressure among rats. The researchers then carried out a randomised crossover trial on just 15 people. This second investigation aimed to see if dietary nitrate – in the form of beetroot juice – had an effect on blood pressure among people with known high blood pressure.

A randomised crossover trial is a type of study where people receive all of the treatments and are tested in a random order. This is an appropriate study design for looking at this type of research question. It means that people receive one treatment, the effect is measured, and they then 'cross over' into the other treatment group, where the effect of the second treatment (or control) is also measured.


What did the research involve?

For the first part of their study, the researchers investigated the effects of giving different doses of nitrate to healthy rats and rats that had artificially raised blood pressure. The researchers looked at the effect this had on the rats' blood pressure.

For the second part of their investigations, the researchers recruited eight women and seven men who were identified as having high blood pressure (hypertension) at a screening procedure a month before the study began. These participants were not taking any blood pressure medication.

The average age of participants was 52.9 years and they were all considered to have grade 1 hypertension, with readings of:

  • systolic blood pressure (the pressure of the blood when the heart beats to pump blood out) between 140 and 159mmHg
  • diastolic blood pressure (the pressure of the blood when the heart rests between beats) between 90 and 99mmHg

The agreed definition of high blood pressure is a systolic pressure reading of 140mmHg and a diastolic pressure reading of 90mmHg (140/90mmHg).

Participants were randomly assigned to drink either 250ml of beetroot juice (supplied by a firm at the same address as the company that two of the authors are directors of), considered the experimental group, or 250ml of water (containing a small amount of nitrate), which acted as the control group. In order to elevate levels of nitrite, the participants having the beetroot juice were said to have received a dose of 3.5mmol nitrate that caused a 1.5-fold increase of plasma [nitrate].
The participants then had their blood pressure monitored over a 24-hour period: every 15 minutes for the first three hours, then hourly for a further three hours, and again at the 24 hour mark. Participants also had their blood pressure recorded prior to the study to provide a pre-intervention blood pressure reading. After seven days, participants 'crossed over' to receive the alternative drink.

The researchers said that beetroot juice was well tolerated by the people who were given it in terms of side effects.


What were the basic results?

The main results of this study were:

Animal findings

  • nitrate was found to significantly lower blood pressure among rats that had high blood pressure compared with the healthy rats
  • the results was found to be dose-dependent – the higher the nitrate dose given to the rat, the bigger effect on reducing blood pressure

Human findings

  • consumption of the relatively low dose of dietary nitrate caused a significant decrease in blood pressure (systolic and diastolic) compared with participants who drank water (p<0.001)
  • the peak average reduction in blood pressure was 11.2 (±2.6) mmHg in the group that received nitrate compared with 0.7 (±1.9) mmHg in the water group
  • after 24 hours, systolic blood pressure remained significantly lower in the group that received nitrate compared with the group that received water, and remained significantly different from values taken at baseline
  • diastolic blood pressure remained lower in the group given nitrate up to measurements taken at six hours compared with those given water, but returned to values taken at baseline at the 24-hour mark
  • no significant difference in heart rate was seen between the groups of human participants



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