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Health Benefits of Ginkgo Biloba

Ginkgo biloba is the oldest living tree species – the tree could live up to 1,000 years. More than 40 components of the ginkgo biloba tree have been isolated and identified, but only two of them — flavonoids and terpenoids — are believed to account for Ginkgo biloba’s beneficial health effects. Flavonoids are plant-based antioxidants, and studies have revealed that flavonoids protect the nerves, heart muscle, blood vessels, and retina from damage. Terpenoids aid blood flow by dilating the blood vessels and reducing the stickiness of platelets.

Ginkgo biloba’s natural health benefits have been recognized by practitioners of traditional medicine. They use the health benefits to treat circulatory disorders and enhance memory. The top five health benefits of ginkgo biloba are:

1) Dementia and Alzheimer’s disease: Ginkgo biloba was used originally to regulate blood flow to the brain. Further studies revealed that it may protect nerve cells damaged by Alzheimer’s disease. Many studies reveal that ginkgo biloba can improve memory and thinking in people affected by Alzheimer’s or vascular dementia.

2) Intermittent Claudication: For people with intermittent claudication, it is very painful to walk. Published studies reveal that people taking ginkgo biloba can walk roughly 37 yards more than people taking a placebo.

3) Glaucoma: According to one study, people with glaucoma who took 120 mg of ginkgo biloba daily for eight weeks realized that their vision had improved.

4) Memory Enhancement: Ginkgo biloba is popular as a “brain herb.” Studies have proven that it can improve memory in people with dementia. Ginkgo biloba is commonly added to nutrition bars, soft drinks, and fruit smoothies to boost memory and enhance cognitive performance.

5) Macular Degeneration: It is a progressive, degenerative eye disease that impairs the retina. It is one of the most common causes of blindness in the United States. The flavonoids found in ginkgo biloba may help cure or alleviate some retinal problems.

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Tumeric Health Benefits

Turmeric health benefits go all the way back to ancient India. Turmeric is a yellow, culinary spice widely used in Southeast Asia. Recent research reveals why this herb is such a powerful healer due to its turmeric anti-inflammatory and anti-oxidant properties. The medical ingredients present create many Turmeric Health Benefits.

Turmeric and Cancer

Studies have been conducted on the turmeric and cancer connection. They reveal that turmeric can induce a process that triggers the self-destruction of cancerous and damaged body cells. Turmeric is effective in treating cancer since it increases liver function. The liver helps to eliminate toxic substances from your body. Given its antibacterial properties, turmeric is beneficial in treating many types of cancer, most noticeably:

• Breast Cancer
• Colon Cancer
• Lung Cancer
• Leukemia

Turmeric hampers the growth of cancerous cells. This is just one of the many turmeric health benefits.

Turmeric and Liver Diseases

The liver helps by detoxifying your blood through the production of enzymes. These enzymes break down and eliminate the toxins found your body. Taking a turmeric supplement or using turmeric recipes increase the production of these vital enzymes, thus increasing liver function. Studies conducted on rats revealed that enzyme production increases by 14% within fourteen days of taking turmeric.

Turmeric For Arthritis

Turmeric isn’t something most people think of when dealing with arthritis or joint pain. Recent studies show sufferers should consider turmeric for arthritis as it is a powerful anti-oxidant. Like other anti-oxidants, turmeric works to destroy free radicals in your body which are responsible for damaging body cells.

Due to turmeric’s anti-oxidant and anti-inflammatory properties, turmeric health benefits provide relief to those suffering from moderate to mild joint pains. Arthritis patients using turmeric for arthritis were found to benefit from reduced morning and evening joint pains. It has now become a natural remedy for arthritis sufferers and provides significant pain relief while also increasing walking speed for patients.

Turmeric and Wounds

As an anti-bacterial and anti-inflammatory agent, turmeric works to heal wounds, cuts and other skin injuries. Using a saucepan, boil coconut oil and add a small amount of turmeric to it. Mix the two together, turn the stove off. When it is no longer too hot to touch, use a cotton swab to apply some of the mixture to the wound. Saving the extra oil in an airtight container allows you to use it in the future without needing to go through the boiling process again.

Turmeric can cause allergic reactions and rashes in a few individuals. For this reason it is a good precaution to talk to your doctor before using this treatment. If you try it and you develop a rash, it is a sign that it’s not the best treatment for you.

Turmeric and Alzheimers

Brain inflation is suspected to be one of the leading causes of Alzheimer’s disease. Studies done with turmeric have shown that one of the major turmeric health benefits is helpings to prevent Alzheimer’s disease. Turmeric anti-oxidant and anti-inflammatory properties might help to prevent or delay the onset of this ruthless disease. It is believed that turmeric blocks the production of IL-2 protein, which is known to destroy the protective sheath found around the nerves.

Turmeric and Cardiovascular Disease

Unhealthy cholesterol levels are the primary cause of most cardiovascular disease. When cholesterol oxidizes, it builds up on the walls of body cells. Turmeric contains vitamin B6, which regulates homo-cysteine levels. Homo-cysteine is directly responsible for damaging body cells. Through interaction with the liver, turmeric lowers the cholesterol levels in the body, which aides in preventing most cardiovascular diseases.

Turmeric as an Anti-Inflammatory

Turmeric’s anti-inflammatory properties don’t just help against deadly diseases. Turmeric also keeps your immune system strong against colds, flu and coughs.These are just the benefits that studies have revealed and there are undoubtedly many more turmeric health benefits yet to be discovered.

Turmeric and Diabetes

Turmeric, along with many other spices, helps to moderate your insulin levels. If you consume a heavy sugary or white bread snack or meal, including turmeric will reduce how extreme your insulin response will be. Turmeric will by no means totally eliminate the sudden sugar intake shock on your body. Limiting sugar consumption and eating whole grains is the best approach to maintaining balanced levels.

Health Benefits of Turmeric

The health benefits of turmeric are numerous. If you’re considering using a turmeric supplement to achieve those benefits you need to know what to look for in a supplement. A turmeric supplement should be standardized turmeric curcumin 95%. This means 95% of the supplement consists of curcumin. This is the part of turmeric which provides its health benefits.

Turmeric Side Effects

Turmeric is spicy and as such can cause heartburn and increase your body temperature. Nausea, dizziness and stomach cramps are possible side effects. These turmeric side effects are more likely if you don’t consume turmeric with food.

Turmeric Supplement Dosage

Knowing all the turmeric health benefits is useless if you don’t know what is the correct turmeric dosage to use. Using the correct turmeric dosage is essential to maximizing its benefits.

Source: http://turmerichealthbenefits.org/

Health Benefits of Pumpkin Seeds

Pumpkin seeds are edible kernels of pumpkin fruit. The seeds, in-fact, are concentrated source of numerous health benefiting minerals, vitamins and anti-oxidants. Pumpkin fruit, native to Mexico, is a squash-like gourd of the Cucurbitaceaefamily. Scientific name: Cucurbita pepo.

The pumpkin fruit, in general, is grown as a field vegetable crop; and its seeds, nevertheless, are used as food and to extract useful pumpkin seed oil. In fact, in some parts of central Europe (Styrian province in Austria, Slovenia and Hungary), it is cultivated as a major oil-seed crop at a commercial scale.

Generally, the pumpkin fruit is allowed to mature completely in order to obtain good-quality seeds. Each fruit contains up to 500 cream-white husky seeds located at its central hollow cavity interspersed in between net like mucilaginous fibers. The seeds are semi-flat, have a typical oval shape with a conical tip. Inside, the edible kernel has olive-green color. The kernels have sweet, creamy nutty flavor enjoyed in deserts, as a snack, in savory dishes, etc. In Central America, hulled and roasted pumpkin seeds known as Pepita.

Health benefits of pumpkin seeds

Crunchy, delicious pumpkin seeds are high in calories, about 559 calories per 100 g. In addition; they are packed with fiber, vitamins, minerals, and numerous health promoting antioxidants.
Their high caloric content mainly comes from protein and fats. On the positive side, the nuts are especially rich in mono-unsaturated fatty acids (MUFA) like oleic acid(18:1) that helps lower bad LDL cholesterol and increases good HDL cholesterol in the blood. Research studies suggest that Mediterranean diet, which is liberal in monounsaturated fatty acids help to prevent coronary artery disease and strokes by favoring healthy blood lipid profile.
The seeds contain good-quality protein. 100 g seeds provide 30 g or 54% of recommended daily allowance. In addition, the seeds are an excellent source of amino acid tryptophan and glutamate. Tryptophan is converted into serotonin and niacin. Serotonin is a beneficial neuro-chemical often labeled as nature’s sleeping pill.Further, tryptophan is a precursor of B-complex vitamin, niacin (60 mg of tryptophan = 1mg niacin).
Glutamate is required in the synthesis of γ-amino butyric acid (GABA). GABA, an anti-stress neurochemical in the brain, helps reducing anxiety, nervous irritability, and other neurotic conditions.
Pumpkin seeds are a very good source of anti-oxidant vitamin E; contain about 35.10 mg of tocopherol-gamma per 100 g (about 237% of RDA). Vitamin E is a powerful lipid soluble antioxidant. It prevents tissue cells from the free radical mediated oxidant injury. Thus, it helps maintain the integrity of mucus membranes and skin by protecting from harmful oxygen-free radicals.
Pumpkin kernels are an also excellent source of B-complex group of vitamins such as thiamin, riboflavin, niacin, pantothenic acid, vitamin B-6 (pyridoxine) and folates. These vitamins work as co-factors for various enzymes during cellular substrate metabolism in the human body. In addition, niacin helps to reduce LDL-cholesterol levels in the blood. Along with glutamate, it enhances GABA activity inside the brain, which in turn reduces anxiety and neurosis.
Furthermore, its seeds contain very good levels of essential minerals like copper, manganese, potassium, calcium, iron, magnesium, zinc and selenium. Just as in pine nuts, pumpkin seeds too are very rich in manganese (provide 4543 mg per 100 g, about 198% of daily-recommended intake). Manganese is an all-important co-factor for antioxidant enzyme, superoxide dismutase. It is therefore, consumption of pumpkin kernels helps the body develop resistance against infectious agents and scavenge harmful oxygen-free radicals.

Medicinal values of pumpkin seeds.

Research studies suggest that pumpkin seed to have DHEA (Di hydro epi-androstenedione) blocking actions. Thus, it cuts the risk of prostate and ovarian cancers.
In addition, experimental studies suggest that certain phytochemical compounds in pumpkin seed oil may have a role in prevention of diabetic nephropathy (kidney disease).

Pumpkin seeds are available in the stores all around the year. You may find whole seeds, hulled, as well as roasted seeds displayed in the grocery stores. In the Latin American world, hulled and roasted-pumpkin seeds are referred as pepita.

While buying whole seeds look for uniform sized, compact, cream-white, or light yellow color seeds that feel heavy in hand and feature good metallic sound.

Avoid thin, small sized, shriveled seeds as they yield poor-quality kernel. They should be free from cracks, mold, and spots and free of rancid smell.

Completely un-hulled seeds keep well for few months placed in cool dry place. However, hulled pumpkin kernels deteriorate soon if exposed to warm, humid conditions; therefore, should be placed in an air-seal container and stored inside the refrigerator.

Culinary uses

Whole as well as hulled pumpkin kernels are used in variety of recipes worldwide.

Here are some serving tips:

Raw kernels can be enjoyed as healthy snacks. Whole seeds can equally be enjoyable when roasted.
In addition, the kernels can be salted or sweetened. In Mexico, the seeds are usually toasted and flavored with salt, lime, or chili peppers, and eaten as snacks.
Pumpkin seeds are one of the ingredients in the Mexican mole sauce.
Just like other nuts and seeds, they can also be used in granolas, biscuits, breads, cookies, casseroles or baked goods.
The seeds also used in salads especially sprinkled over fruit/vegetable salads.
You may add them to desserts, particularly sundaes and other confectionary.
The seeds are frequently added to enrich in meat, poultry, rice, and vegetable dishes.
Pumpkin seed oil is used in salad dressing as well as in cooking. In Austrian-Styria, the oil is mostly used to add to soups and salad dressings along with vinegar, salt and minced garlic.

Safety profile

Unlike tree nut’s allergy, it is rare to find true pumpkin-seeds allergy incidences. However, in known sensitive persons a few allergic symptoms may appear due to antigenic cross-reactions with some other nuts, seeds and fruits, especially of Anacardiaceae family such as mango,cashew nuts,pistachio,etc. Persons with previous history of allergic-reactions to these seeds, and nuts may therefore need to observe caution. (Medical disclaimer).

Source: http://www.nutrition-and-you.com/pumpkin-seeds.html

Benefits of Wheatgrass

Some of the superior qualities of wheatgrass and the juice that can be extracted from its blades include the following:

Increases red blood-cell count and lowers blood pressure. It cleanses the blood, organs and gastrointestinal tract of debris. Wheatgrass also stimulates metabolism and the body’s enzyme systems by enriching the blood. It also aids in reducing blood pressure by dilating the blood pathways throughout the body.

Stimulates the thyroid gland, correcting obesity, indigestion, and a host of other complaints.

Restores alkalinity to the blood. The juice’s abundance of alkaline minerals helps reduce over-acidity in the blood. It can be used to relieve many internal pains, and has been used successfully to treat peptic ulcers, ulcerative colitis, constipation, diarrhea, and other complaints of the gastrointestinal tract.

Is a powerful detoxifier, and liver and blood protector. The enzymes and amino acids found in wheatgrass can protect us from carcinogens like no other food or medicine. It strengthens our cells, detoxifies the liver and bloodstream, and chemically neutralizes environmental pollutants.

Fights tumors and neutralizes toxins. Recent studies show that wheatgrass juice has a powerful ability to fight tumors without the usual toxicity of drugs that also inhibit cell-destroying agents. The many active compounds found in grass juice cleanse the blood and neutralize and digest toxins in our cells.

Contains beneficial enzymes. Whether you have a cut finger you want to heal or you desire to lose five pounds…enzymes must do the actual work. The life and abilities of the enzymes found naturally in our bodies can be extended if we help them from the outside by adding exogenous enzymes, like the ones found in wheatgrass juice. Don’t cook it. We can only get the benefits of the many enzymes found in grass by eating it uncooked. Cooking destroys 100 percent of the enzymes in food.

Has remarkable similarity to our own blood. The second important nutritional aspect of chlorophyll is its remarkable similarity to hemoglobin, the compound that carries oxygen in the blood. Dr. Yoshihide Hagiwara, president of the Hagiwara Institute of Health in Japan, is a leading advocate for the use of grass as food and medicine. He reasons that since chlorophyll is soluble in fat particles, and fat particles are absorbed directly into the blood via the lymphatic system, that chlorophyll can also be absorbed in this way. In other words, when the “blood” of plants is absorbed in humans it is transformed into human blood, which transports nutrients to every cell of the body.

When used as a rectal implant, reverses damage from inside the lower bowel. An implant is a small amount of juice held in the lower bowel for about 20 minutes. In the case of illness, wheatgrass implants stimulate a rapid cleansing of the lower bowel and draw out accumulations of debris.

Externally applied to the skin can help eliminate itching almost immediately.

Will soothe sunburned skin and act as a disinfectant. Rubbed into the scalp before a shampoo, it will help mend damaged hair and alleviate itchy, scaly, scalp conditions.

Is soothing and healing for cuts, burns, scrapes, rashes, poison ivy, athlete’s foot, insect bites, boils, sores, open ulcers, tumors, and so on. Use as a poultice and replace every two to four hours.

Works as a sleep aide. Merely place a tray of living wheatgrass near the head of your bed. It will enhance the oxygen in the air and generate healthful negative ions to help you sleep more soundly.

Enhances your bath. Add some to your bath water and settle in for a nice, long soak.

Sweetens the breath and firms up and tightens gums. Just gargle with the juice.

Neutralizes toxic substances like cadmium, nicotine, strontium, mercury, and polyvinyl chloride.

Offers the benefits of a liquid oxygen transfusion since the juice contains liquid oxygen. Oxygen is vital to many body processes: it stimulates digestion (the oxidation of food), promotes clearer thinking (the brain utilizes 25% of the body’s oxygen supply), and protects the blood against anaerobic bacteria. Cancer cells cannot exist in the presence of oxygen.

Turns gray hair to its natural color again and greatly increases energy levels when consumed daily.

Is a beauty treatment that slows down the aging process when the juice is consumed. Wheatgrass will cleanse your blood and help rejuvenate aging cells, slowing the aging process way down, making you feel more alive right away. It will help tighten loose and sagging skin.

Lessens the effects of radiation. One enzyme found in wheatgrass, SOD, lessens the effects of radiation and acts as an anti-inflammatory compound that may prevent cellular damage following heart attacks or exposure to irritants.

Restores fertility and promotes youthfulness.

Can double your red blood cell count just by soaking in it. Renowned nutritionist Dr. Bernard Jensen found that no other blood builders are superior to green juices and wheatgrass. In his book “Health Magic Through Chlorophyll” he mentions several cases where he was able to double the red blood cell count in a matter of days merely by having patients soak in a chlorophyll-water bath. Blood building results occur even more rapidly when patients drink green juices and wheatgrass regularly.

Beetroot Juice — Evidence Suggests It Improves Heart Health and Athletic Performance

By Ellen Coleman, MA, MPH, RD, CSSD

Today’s Dietitian

A diet rich in vegetables has cardiovascular benefits that have long been well documented. It’s been proposed that these health effects may be due, in part, to vegetables’ high nitrate content.

While nitrate is found in all vegetables, it’s especially abundant in beetroot and leafy greens. Dietary nitrate lowers blood pressure, thereby helping protect the heart.1 Recent research suggests that dietary nitrate supplementation in the form of beetroot juice not only decreases blood pressure but also reduces the amount of oxygen needed during exercise and enhances athletic performance.2

The blood pressure and athletic performance benefits are likely mediated through the metabolic conversion of dietary nitrate (NO3) to biologically active nitrite (NO2) and then to nitric oxide. Nitric oxide has numerous functions in the body, including the regulation of blood flow, muscle contractility, glucose and calcium homeostasis, and mitochondrial respiration and biogenesis.3

This continuing education activity will provide a comprehensive review of recent research findings on the health benefits of beetroot juice and evaluate how nitrate lowers blood pressure, reduces the oxygen cost of exercise, and improves athletic performance.

Dietary Nitrate, Nitrite, and Nitric Oxide

Dietary nitrate is absorbed rapidly from the stomach and small intestine. About 25% of ingested nitrate enters the enterosalivary circulation, where it’s reduced to nitrite by bacterial nitrate reductases from symbiotic anaerobic bacteria on the surface of the tongue. This nitrite is swallowed and reduced to nitric oxide in the acidic environment of the stomach or is absorbed via the gastrointestinal tract and reenters the circulation as nitrite.1

Nitric oxide is a potent vasodilator that governs systemic blood pressure and retards atherogenesis by inhibiting inflammatory cell recruitment and platelet aggregation. Nitric oxide is generated by two known pathways: the oxidation of L-arginine by endothelial nitric oxide synthase (NOS), requiring the presence of oxygen and several essential cofactors, and by the reduction of nitrate-derived nitrite to nitric oxide.1,3

Numerous cardiovascular pathologies (atherosclerosis and cardiovascular disease risk factors such as hypertension and hyperlipidemia) are associated with endothelial dysfunction and diminished nitric oxide activity. Nitrite derived from dietary nitrate provides an alternative source of vasoprotective nitric oxide via the nitrate-nitrite-nitric oxide pathway when conventional nitric oxide synthesis is impaired. Thus, during ischemia or hypoxemia (conditions that inactivate endothelial nitric oxide synthase), nitrate helps preserve nitric oxide production.1,3

Independent of its role as a source of nitric oxide, nitrite provides protection against ischemia/reperfusion injury in the myocardial, hepatic, renal, pulmonary, and cerebral vasculature. Nitrite also causes dose-dependent vasodilatation in the brachial artery of healthy individuals, indicating that it may have an important role in maintaining normal cardiovascular homeostasis.1

Lowering Blood Pressure

Webb and colleagues1 evaluated the effects of 0.5 L of beetroot juice (22.5 mmol of nitrate) on blood pressure, plasma nitrite concentrations, and endothelial function. Systolic blood pressure dropped 10.4 mm Hg three hours after ingestion, and diastolic blood pressure fell 8 mm Hg 2 1/2 hours after ingestion. Plasma nitrite increased twofold after beetroot juice ingestion, reached a peak at three hours, and correlated with the decreases in blood pressure. Researchers measured endothelial function by brachial artery flow-mediated vasodilation after ischemic occlusion of the forearm. Beetroot juice significantly prevented endothelial dysfunction induced by an acute ischemic insult in the forearm and attenuated ex vivo platelet aggregation.1

The researchers also evaluated the effect of spitting out all saliva during and after beetroot juice ingestion on blood pressure and plasma nitrate concentrations. Spitting out saliva interrupted the enterosalivary circulation, thereby preventing nitrite-rich saliva from reaching the stomach. Compared with swallowing, spitting blocked the rise in plasma nitrite concentration, prevented the decrease in systolic blood pressure, and had no effect on platelet aggregation. Thus, the physiological effects of dietary nitrate are due to the production of nitrite from symbiotic anaerobic bacteria on the surface of the tongue rather than from the nitrate itself.1

Oxygen Cost of Exercise and Blood Pressure

Preliminary research suggested that consuming a large dose of pharmaceutical sodium nitrate (0.1 mmol/kg/day for three days) resulted in a lower oxygen cost during submaximal cycling.4 In practical terms, the nitrate supplementation improved exercise economy—the muscles used less oxygen for a given work rate. This finding was surprising and challenged a fundamental principle of human exercise physiology: During submaximal exercise, there’s a predictable oxygen cost for a given work rate. Furthermore, the increase in oxygen uptake is linearly related to the increase in work rate, and this relationship can’t be altered.

As a result, Bailey and other researchers in the United Kingdom became interested in whether they could obtain similar results when administering the nitrate dose in the form of nitrate-rich beetroot juice. This distinction is important since sodium nitrate is considered a drug, whereas beetroot juice is a natural food product individuals can readily include in the diet.2

Nitrate levels in vegetables and vegetable juices can vary considerably, depending on many factors. So to provide a consistent nitrate dose (approximately 5 to 6 mmol), most of the studies evaluating the effect of beetroot juice on the oxygen cost of exercise have used Beet It beetroot juice.

Bailey and associates evaluated the effect of beetroot juice consumption for six days on the oxygen cost of moderate- and high-intensity exercise, blood pressure, and plasma nitrite concentrations. The subjects consumed 0.5 L of Beet It (5.5 mmol of nitrate) or placebo (a black current cordial with negligible nitrate) for six days and completed a series of low- and high-intensity cycling tests on the last three days. On days 4 to 6, plasma nitrite concentration was significantly higher and systolic blood pressure was dramatically lower (8 mm Hg) in subjects who drank beetroot juice compared with placebo. The beetroot juice significantly reduced the oxygen cost of moderate-intensity cycling exercise by 19% and increased the time to exhaustion during high-intensity cycling by 17%.2

Bailey and colleagues5 conducted a follow-up study to determine the mechanisms by which beetroot juice lowered the oxygen cost of moderate-intensity exercise and improved tolerance of high-intensity exercise. Subjects consumed 0.5 L of Beet It (5.1 mmol of nitrate) or placebo (the black current cordial) for six days and completed a series of low- and high-intensity knee extensor exercises in the prone position on the last three days. Beetroot juice more than doubled plasma nitrite concentration and reduced the oxygen cost and rate of phosphocreatine breakdown during low- and high-intensity exercise. Compared with placebo, beetroot juice significantly lowered systolic blood pressure by 5 mm Hg and diastolic blood pressure by 2 mm Hg. Beetroot juice greatly reduced the oxygen cost of moderate-intensity knee extensor exercise by 25% and increased the time to exhaustion during high-intensity knee extensor exercise by 25%.5

Beetroot juice appears to lower the oxygen cost of exercise by reducing the total ATP cost of muscle force production—the muscles use less ATP to produce the same amount of work. Beetroot juice also decreases the breakdown of phosphocreatine (the limited reserve of high-energy phosphate that resynthesizes ATP), thus lessening muscle metabolic disruption.5 These changes may be due to an increased efficiency of mitochondrial oxidative phosphorylation or increased efficiency of calcium transport by the sarcoplasmic reticulum Ca-ATPases. Dietary nitrate supplementation also may improve exercise performance by increasing blood flow to the exercising muscles and improving the match between blood flow and oxygen uptake.5-7

Bailey and colleagues5 noted that the protective effect of nitrite on infarct size that’s been reported in experimental models of myocardial ischemia may be due to a nitric oxide-mediated reduction in the energy (and oxygen cost) of contraction in the heart in addition to enhanced perfusion of ischemic areas.5

Vanhatalo and other UK researchers investigated the acute (2 1/2 hour) and chronic (up to 15 days) effects of dietary nitrate supplementation on blood pressure and the physiological responses to moderate-intensity and incremental cycling exercise. The subjects consumed 0.5 L of Beet It (5.2 mmol of nitrate) or placebo (the black current cordial). The exercise protocol (two moderate-intensity step tests followed by a ramp test) was repeated 2 1/2 hours following the first ingestion and after five and 15 days.3

Beetroot juice significantly elevated plasma nitrite concentration throughout the 15-day test period, and this was accompanied by a marked reduction in systolic (4 mm Hg) and diastolic (4 mm Hg) blood pressure. These effects tended to be more pronounced after 12 days of dietary nitrate supplementation. Compared with placebo, the oxygen cost during moderate exercise was acutely reduced by 4% after 2 1/2 hours and remained similarly lowered after five and 15 days of continual beetroot juice ingestion. While beetroot juice had no acute effects on maximal oxygen uptake (VO2 max) and the gas exchange threshold, these parameters of aerobic fitness rose after 15 days of supplementation.3

The oxygen cost of moderate exercise didn’t decrease as much as in previous studies, but the subjects’ normal dietary nitrate intake wasn’t restricted at any time during the study period.3

It’s assumed that beetroot juice reduces blood pressure and the oxygen cost of exercise through the metabolic conversion of inorganic nitrate to bioactive nitrite and then nitric oxide. However, since beetroot juice also is rich in several metabolically active compounds (betaine, antioxidants, and polyphenols), it’s uncertain whether the cardiovascular and physiological changes observed following beetroot juice ingestion can be attributed exclusively to its high nitrate content.8

For example, the amino acid betaine has been used in the treatment of cardiovascular disease. The high antioxidant content of beetroot juice may provide protection against exercise-induced oxidative stress. Beetroot juice also contains the polyphenols quercetin and resveratrol, which have been linked with mitochondrial biogenesis and an associated increase in aerobic capacity. Thus, beetroot juice has the potential to influence blood pressure and exercise performance via numerous pathways.8

Lansley and colleagues in the United Kingdom conducted a study to determine whether the physiological effects of beetroot supplementation (reduced blood pressure, lowered oxygen cost of submaximal exercise, and enhanced tolerance to a high-intensity workout) were due to the juice’s high nitrate content. The researchers provided a nitrate-depleted beetroot juice to serve as a placebo, which was similar in appearance, odor, taste, and texture to the nitrate-rich beetroot juice. This allowed the researchers to isolate the effects of dietary nitrate from the other potential active ingredients found in beetroot juice and ensured a genuinely double-blind experimental design.8

The subjects consumed 0.5 L of Beet It (6.2 mmol of nitrate) or the nitrate-depleted beetroot juice placebo (0.003 mmol of nitrate) for six days. They engaged in treadmill exercise and knee extension tests on days four and five. The nitrate-rich beetroot juice significantly raised plasma nitrite concentration and decreased systolic blood pressure by 4% (5 mm Hg) compared with placebo. The nitrate-rich beverage also lowered the oxygen cost of walking by 12% and moderate- and high-intensity running by 7%. The nitrate-rich juice also increased the time to exhaustion during high-intensity running by 15% and during incremental knee extension exercise by 5%.8

The consumption of nitrate-depleted beetroot juice didn’t alter any of the experimental variables at rest or during exercise compared with the nonsupplemented controls. These results indicate that the positive physiological effects of beetroot juice ingestion on blood pressure and exercise performance are due to the high nitrate content rather than other compounds.8

Beetroot Juice and Athletic Performance

Most studies evaluating the performance effects of beetroot juice have used time-to-exhaustion protocols, which test exercise capacity, not athletic performance, and have been criticized as having limited validity in the athletic setting. A superior test of the effectiveness of beetroot juice as an ergogenic aid would involve subjects covering a certain distance in the fastest time possible—a time trial.9

Lansley and colleagues9 evaluated the effect of beetroot juice consumption on power output, oxygen uptake, and performance during 4-km and 16.1-km cycling time trials. The subjects’ normal dietary nitrate intake wasn’t restricted at any time during the study. The competitive male cyclists consumed 0.5 L of Beet It (6.2 mmol of nitrate) or a nitrate-depleted beetroot juice placebo (0.0047 mmol of nitrate) and rested for 2 3/4 hours before completing either a 4- or 16.1-km bicycle time trial.

The nitrate-rich beetroot juice significantly increased plasma nitrite concentrations and decreased systolic blood pressure by 6 mm Hg. The oxygen uptake values weren’t significantly different between the beetroot juice and placebo time trials. However, the nitrate-rich beetroot juice significantly increased mean power output during the 4-km time trial (292 vs. 279 watts) and the 16.1-km time trial (247 watts vs. 243 watts) compared with placebo. As a result, beetroot juice improved performance by 2.8% (11 seconds) in the 4-km time trial and by 2.7% (45 seconds) in the 16.1-km time trial. The improved time trial performance following beetroot juice ingestion was due to a significantly higher power output for the same oxygen uptake—7% to 11% greater power output per liter of oxygen consumed.9

Based on the length of time it took the subjects to complete the time trials, the results suggest that dietary nitrate supplementation has the potential to improve performance in events lasting five to 30 minutes. Statistical analysis to derive the true effect of the intervention indicated that dietary nitrate supplementation may have a practical and meaningful benefit for athletic performance.9 In the real world, an 11-second advantage in a 4-km cycling time trial and 45-second advantage in a 16.1-km cycling time trial separate the podium finishers from the rest of the pack.

Beetroot Juice and Peripheral Artery Disease

In addition to the research examining the effects of beetroot juice on blood pressure and athletic performance, studies have evaluated its impact on exercise tolerance in patients with peripheral artery disease, a type of cardiovascular disease in which atherosclerotic occlusions impair blood flow to the lower extremities and cause intermittent claudication (ischemic leg pain that occurs with walking and improves with rest).

In one study, Kenjale and colleagues gave subjects 0.5 L of Biotta beetroot juice (9 mmol of nitrate) or placebo (orange juice with negligible nitrate content) three hours before undergoing a maximal cardiorespiratory exercise test.10

The beetroot juice significantly increased plasma nitrite concentration. Beetroot juice ingestion dramatically reduced diastolic blood pressure at rest and during the maximal cardiorespiratory exercise test. In addition, the subjects walked 18% longer before the onset of claudication pain and were able to walk 17% longer following the consumption of beetroot juice compared with those who received the placebo. Thus, beetroot juice ingestion significantly increased exercise tolerance by almost 20%—a statistically and clinically significant increase in functionality for a disease state characterized by reduced physical function and quality of life.10

In addition to the lower blood pressure, measures of gastrocnemius (calf muscle) tissue oxygenation suggest that increased tissue perfusion was responsible for the improvement in exercise tolerance. Since there was no change in endothelial function, researchers surmise that the beetroot juice probably improved peripheral blood flow in areas of tissue hypoxia by increasing nitric oxide production.10

Real-World Concerns

These findings have encouraged some endurance athletes to consider supplementing with inorganic nitrate salts (sodium or potassium nitrate) to reduce the oxygen cost of exercise and improve performance. This has raised concern among researchers, who caution against the uneducated and uncontrolled use of nitrate salts, and especially nitrite salts, to enhance performance. Nitrate salt is used to preserve food and is available at grocery stores; nitrite salt is available on the Internet.

While inorganic nitrate is nontoxic at higher doses, inorganic nitrite can cause serious harm at considerably lower levels. The LD50, or lethal dose, for nitrite (100 to 200 mg/kg) is comparable to that of cyanide. Nitrite toxicity is due to elevated methemoglobin levels (an oxidized form of hemoglobin that has an increased affinity for oxygen) and may cause life-threatening tissue hypoxia. In high doses, nitrite also may cause hypotension, especially if combined with other vasodilatory drugs.11

The researchers also note that nitrate-containing vegetable juice presents a potential risk if it’s stored incorrectly. If bacteria that convert nitrate to nitrite contaminate the juice, high levels of nitrite could accumulate over time, which could be potentially harmful.11

Athletes and other individuals also may be confused about the differences between inorganic nitrate (found in dietary sources such as beetroot juice, vegetables, and nitrate salts), organic nitrates (eg, the drug nitroglycerine), and organic nitrites (eg, the drug amyl nitrite). Organic nitrates and nitrites are extremely potent vasodilators, and an unintentional overdose can lead to fatal vascular collapse. While the acute toxicity of inorganic nitrate is very low, any confusion that could lead to a large unintentional intake of organic nitrates or nitrites is potentially life threatening.11

On the other hand, consuming dietary nitrate from vegetables or vegetable juice is presumed safe.11-13 In fact, diets high in dietary nitrate are associated with reduced blood pressure and a decreased incidence in cardiovascular disease.11,12 Dietary nitrate may represent an effective treatment for hypertension in addition to current medication regimens.1,3,10,14 The Dietary Approaches to Stop Hypertension diet provides approximately 20 mmol of nitrate per day (about the amount provided in the Webb study and twice that provided in the Kenjale study) and has reduced blood pressure in both normal and hypertensive subjects.14

Individuals with cardiovascular disease or related risk factors should consult their physician before consuming a high-nitrate diet. Also, certain medications may adversely interact with a high-nitrate diet, including organic nitrate or nitrite drugs used for angina and PDE-5 inhibitors such as sildenafil citrate, tadalafil, and vardenafil.12

As with most substances ingested to affect the body’s structure or function, the dosage and formulation often determine whether the effects are beneficial or detrimental. As with other nutritional supplements, it’s essential to consider the risk/benefit ratio when evaluating the effects of dietary nitrate ingestion on human physiology. More research is needed to determine the optimal amounts of dietary nitrate to reduce blood pressure and enhance athletic performance.12,13

For now, it’s prudent to suggest clients follow the 2010 Dietary Guidelines for Americans and the USDA’s MyPlate (www.choosemyplate.gov) recommendations to determine the amount of vegetables they should consume each day for optimal health.11-13

— Ellen Coleman, MA, MPH, RD, CSSD, is a nutrition consultant at The SPORT Clinic in Riverside, California.

Sources of Dietary Nitrate

Beetroot juice is an easy way to quickly ingest a substantial amount of dietary nitrate. However, some individuals may find the taste of beetroot juice unpleasant. Furthermore, it can cause red urine and stools. Fortunately, beetroots are just one of many vegetables that are high in nitrate. Leafy green vegetables tend to be the top sources.

The dose of dietary nitrate used in the research to reduce the oxygen cost of exercise, improve athletic performance, and lower blood pressure ranges from 300 to 500 mg.11 Clients can readily obtain these amounts through their diet. For instance, foods such as celery, cress, chervil, lettuce, red beetroot, spinach, and arugula (rocket or rucola) contain very high nitrate levels (more than 250 mg/100 g), and celeriac, Chinese cabbage, endive, fennel, kohlrabi, leeks, and parsley are among those with high nitrate levels (approximately 100 to 250 mg/100 g).14 More specifically, 1 cup of raw spinach contains approximately 900 mg of nitrate; 1/2 cup cooked collard greens, approximately 200 mg; 1 cup raw leaf lettuce, approximately 100 mg; and 1/2 cup vegetable juice, approximately 40 mg.14

Learning Objectives

After completing this continuing professional education activity, learners should be better able to:

1. Interpret how dietary nitrate increases nitric oxide production.

2. Assess how dietary nitrate reduces blood pressure.

3. Evaluate how dietary nitrate enhances exercise performance.

4. Compare three good sources of dietary nitrates.

Examination

1. The blood pressure-lowering benefits of consuming beetroot juice are due to the production of:

a. nitrate.

b. nitrite.

c. nitric oxide.

d. nitroglycerin.

e. amyl nitrate.

2. Beetroot juice appears to reduce the oxygen cost of exercise by:

a. reducing the total ATP cost of muscle force production.

b. reducing muscle metabolic perturbation.

c. elevating muscular creatine phosphate levels.

d. a and b

e. b and c

3. What ingredient in beetroot juice is likely responsible for its positive effects on blood pressure and exercise performance?

a. Nitrate

b. Antioxidants

c. Betaine

d. Quercetin

e. Resveratrol

4. In patients with peripheral artery disease, Kenjale and colleagues found that beetroot juice:

a. reduced gastrocnemius fractional tissue oxygen extraction during exercise.

b. lowered diastolic blood pressure at rest and during exercise.

c. had no effect on endothelial function.

d. a and b

e. a, b, and c

5. The Lansley cycling time trial study found that compared with placebo, high-nitrate beetroot juice ingestion:

a. significantly decreased systolic blood pressure.

b. significantly increased mean power output during the time trials.

c. significantly reduced oxygen uptake.

d. a and b

e. a and c

6. Individuals should avoid using which of the following to lower blood pressure or improve athletic performance?

a. Nitrate salts

b. Nitrite salts

c. Organic nitrates

d. Organic nitrites

e. All of the above

7. Medications used to treat angina (eg, nitroglycerin or nitrate preparations) and PDE-5 inhibitors (eg, sildenafil citrate, tadalafil, vardenafil) may adversely interact with a high-nitrate diet.

a. True

b. False

8. In high doses, nitrite may cause:

a. methemoglobinemia.

b. hypertension.

c. hypotension.

d. a and c

e. a and b

9. The nitrate dose in beetroot juice that’s used in research to reduce the oxygen cost of exercise, improve performance, and lower blood pressure is:

a. 700 to 900 mg.

b. 500 to 700 mg.

c. 300 to 500 mg.

d. 100 to 200 mg.

e. None of the above

10. Which of the following vegetable(s) has/have a high content (more than 250 mg/100 g) of nitrate?

a. celery

b. broccoli

c. spinach

d. a and b

e. a and c

References

1. Webb AJ, Patel N, Loukogeorgakis S, et al. Acute blood pressure lowering, vasoprotective, and antiplatelet properties of dietary nitrate via bioconversion to nitrite. Hypertension. 2008;51(3):784-790.

2. Bailey SJ, Winyard P, Vanhatalo A, et al. Dietary nitrate supplementation reduces the O2 cost of low-intensity exercise and enhances tolerance to high-intensity exercise in humans. J Appl Physiol. 2009;107:1144-1155.

3. Vanhatalo A, Bailey SJ, Blackwell JR, et al. Acute and chronic effects of dietary nitrate supplementation on blood pressure and the physiological responses to moderate-intensity and incremental exercise. Am J Physiol Regul Integr Comp Physiol. 2010;299(4):R1121-R1131.

4. Larsen FJ, Weitzberg E, Lundberg JO, Ekblom B. Effects of dietary nitrate on oxygen cost during exercise. Acta Physiol (Oxf). 2007;191(1):59-66.

5. Bailey SJ, Fulford J, Vanhatalo A, et al. Dietary nitrate supplementation enhances muscle contractile efficiency during knee-extensor exercise in humans. J Appl Physiol. 2010;109(1):135-148.

6. Larsen FJ, Schiffer TA, Borniquel S, et al. Dietary inorganic nitrate improves mitochondrial efficiency in humans. Cell Metab. 2011;13(2):149-159.

7. Ferreira LF, Behnke BJ. A toast to health and performance! Beetroot juice lowers blood pressure and the O2 cost of exercise. J Appl Physiol. 2011;110(3):585-586.

8. Lansley KE, Winyard PG, Fulford J, et al. Dietary nitrate supplementation reduces the O2 cost of walking and running: a placebo-controlled study. J Appl Physiol. 2011;110(3):591-600.

9. Lansley KE, Winyard PG, Bailey SJ, et al. Acute dietary nitrate supplementation improves cycling time trial performance. Med Sci Sports Exerc. 2011;43(6):1125-1131.

10. Kenjale AA, Ham KL, Stabler T, et al. Dietary nitrate supplementation enhances exercise performance in peripheral arterial disease. J Appl Physiol. 2011;110(6):1582-1591.

11. Lundberg JO, Larsen FJ, Weitzberg E. Supplementation with nitrate and nitrite salts in exercise: a word of caution. J Appl Physiol. 2011;111:616-617.

12. Allen JD. Reply to Lundberg, Larsen, and Weitzberg. J Appl Physiol. 2011;111(2):618.

13. Jones AM, Bailey SJ, Vanhatalo A, et al. Reply to Lundberg, Larsen, and Weitzberg. J Appl Physiol. 2011;111(2):619.

14. Hord NG, Tang Y, Bryan NS. Food sources of nitrates and nitrites: the physiologic context for potential health benefits. Am J Clin Nutr. 2009;90(1):1-10.

Original Article: http://www.todaysdietitian.com/newarchives/020612p48.shtml