21 November 2012

Cauliflower / Broccoli


 Broccoli
 
 

What's New and Beneficial About Broccoli
  • Broccoli can provide you with some special cholesterol-lowering benefits if you will cook it by steaming. The fiber-related components in broccoli do a better job of binding together with bile acids in your digestive tract when they've been steamed. When this binding process takes place, it's easier for bile acids to be excreted, and the result is a lowering of your cholesterol levels. Raw broccoli still has cholesterol-lowering ability—just not as much.
  • Broccoli has a strong, positive impact on our body's detoxification system, and researchers have recently identified one of the key reasons for this detox benefit. Glucoraphanin, gluconasturtiian, and glucobrassicin are 3 glucosinolate phytonutrients found in a special combination in broccoli. This dynamic trio is able to support all steps in body's detox process, including activation, neutralization, and elimination of unwanted contaminants. Isothiocyanates (ITCs) are the detox-regulating molecules made from broccoli's glucosinolates, and they help control the detox process at a genetic level.
  • Broccoli may help us solve our vitamin D deficiency epidemic. When large supplemental doses of vitamin D are needed to offset deficiency, ample supplies of vitamin K and vitamin A help keep our vitamin D metabolism in balance. Broccoli has an unusually strong combination of both vitamin A (in the form of beta-carotene) and vitamin K. For people faced with the need to rebuild vitamin D stores through vitamin D supplements, broccoli may be an ideal food to include in the diet.
  • Broccoli is a particularly rich source of a flavonoid called kaempferol. Recent research has shown the ability of kaempferol to lessen the impact of allergy-related substances on our body. This kaempferol connection helps to explain the unique anti-inflammatory benefits of broccoli, and it should also open the door to future research on the benefits of broccoli for a hypoallergenic diet.
WHFoods Recommendations
Studies have shown that even kids like broccoli and one way to ensure that they enjoy it is to cook it properly by using our Healthy Steaming method. Overcooked broccoli becomes soft and mushy, an indication that it has lost both nutrients and flavor. Begin by cutting broccoli florets into quarters and let sit for several minutes before cooking to enhance its health-promoting benefits. Steam for 5 minutes. See Healthiest Way of Cooking Broccoli below.
You'll want to include broccoli as one of the cruciferous vegetables you eat on a regular basis if you want to receive the fantastic health benefits provided by the cruciferous vegetable family. At a minimum, include cruciferous vegetables as part of your diet 2-3 times per week, and make the serving size at least 1-1/2 cups. Even better from a health standpoint, enjoy broccoli and other vegetables from the cruciferous vegetable group 4-5 times per week, and increase your serving size to 2 cups.

Nutrients in
Broccoli
1.00 cup raw (91.00 grams)
Nutrient%Daily Value

vitamin C135.2%

vitamin K115.5%

folate14.3%

vitamin A11.3%

manganese9.5%

fiber9.4%

tryptophan9.3%

potassium8.2%

vitamin B68%

vitamin B26.4%

molybdenum6%

phosphorus6%

vitamin B55.2%

protein5.1%

magnesium4.7%

calcium4.2%

choline4%

vitamin B14%

iron3.6%

vitamin E3.5%

selenium3.2%

vitamin B32.8%

Calories (30)1%


This chart graphically details the %DV that a serving of Broccoli provides for each of the nutrients of which it is a good, very good, or excellent source according to our Food Rating System. Additional information about the amount of these nutrients provided by Broccoli can be found in the Food Rating System Chart. A link that takes you to the In-Depth Nutritional Profile for Broccoli, featuring information over 80 nutrients, can be found under the Food Rating System Chart.
It's no coincidence that more than 300 research studies on broccoli have converged in one unique area of health science—the development of cancer—and its relationship to three metabolic problems in the body. Those three problems are (1) chronic inflammation (2) oxidative stress, and (3) inadequate detoxification. While these types of problems have yet to become part of the public health spotlight, they are essential to understanding broccoli's unique health benefits. Over the past 5 years, research has made it clear that our risk of cancer in several different organ systems is related to the combination of these three problems.

The Cancer/Inflammation/Oxidative Stress/Detox Connection
Exposure to potentially toxic substances in our food and water, or in the air we breathe both indoors and outdoors, exposure to allergy-triggering substances, poor general health, dietary deficiencies, use of prescription and over-the-counter medications, and other lifestyle practices can result in a level of danger to our bodies that prompts our inflammatory system to work in overdrive on a 24/7 basis. Researchers often refer to this phenomenon as "chronic inflammation." Often contributing to this level of danger is a weakened detox ability in our body. If our liver, skin, and other organ systems cannot keep up with and detoxify the number of potential toxins that we encounter, too many potential toxins remain at large throughout our body. Once again, the result is a level of risk that prompts chronic inflammation.
On a more temporary, short-term basis, inflammation is part of good health. Whether physical or chemical in nature, whenever our body detects a wound, it typically responds by trying to heal with an inflammatory response. That process is healthy, so long as it is not constant and uninterrupted. But unlike the helpful inflammation that takes place we get a simple cut or bruise, chronic inflammation—when it becomes a standard feature of our metabolism—is incompatible with good health. When our bodies are overwhelmed day in and day out with chronic inflammation, many other metabolic balances can get thrown out of kilter, including the balance in our oxygen metabolism. An unwanted imbalance starts to occur in which too many overly reactive, oxygen-containing molecules are formed. This condition is called oxidative stress. The increased presence of these overly reactive molecules can do damage to many parts of our cells, including their genetic material (and especially their deoxyribonucleic acid, or DNA). Over time, the constant and cumulative DNA damage inside our cells can pose a major risk factor for conversion of healthy cells into cancerous ones.

It's equally possible for this sequence of events to start not with chronic, excessive inflammation, but with chronic oxidative stress. Over time, when overly reactive oxygen-containing molecules cause damage to DNA and other cell structures, our body reads this situation as being highly dangerous and it initiates an inflammatory response to try and reduce the threat posed by the oxidative stress. In either case, we end up with a combination of inadequate detoxification of toxic substances, chronic inflammation and oxidative stress that puts us at greater risk for developing cancer.
In a way that might be unique among foods, the nutrients found in broccoli are able to change this set of connections between inflammation, oxidative stress, detox and cancer. In fact, it would be fair to describe broccoli as containing anti-inflammatory nutrients, antioxidant nutrients, detox-support nutrients, and anti-cancer nutrients as well!

Broccoli's Anti-Inflammatory Benefits
When threatened with dangerous levels of potential toxins, or dangerous numbers of overly-reactive, oxygen-containing molecules, signals are sent within our body to our inflammatory system, directing it to "kick in" and help protect our body from potential damage. One key signaling device is a molecule called Nf-kappaB. When faced with the type of dangers described above, the NF-kappaB signaling system is used to "rev up" our inflammatory response and increase production of inflammatory components (for example, IL-6, IL-1beta, TNF-alpha, iNOS and COX-2). This process works beautifully in temporary, short-term circumstances when healing from injury is required. When it continues indefinitely at a constant pace, however, it can put us at risk for serious health problems, including the development of cancer.

Research studies have made it clear that the NF-kappaB signaling system that is used to "rev up" our inflammatory response can be significantly suppressed by isothiocyanates (ITCs). ITCsâ€"the compounds made from glucosinolates found in broccoli and other cruciferous vegetables—actually help to shut down the genetic machinery used to produce NF-kappaB and other components of the inflammatory system. These anti-inflammatory benefits of ITCs have been demonstrated in the laboratory, and with consumption of the ITCs themselves. While they have yet to be demonstrated on consumption of broccoli in an everyday diet, we fully expect future research to show anti-inflammatory benefits from the routine consumption of broccoli (and its glucosinolates), not just from consumption of ITCs.

Lack of omega-3 fat is dietary problem that can cause over-activation of the inflammatory system. The reason is simple: many key anti-inflammatory messaging molecules (like PGH3, TXA3, PGI3, and LTE5) are made from omega-3 fats. We are not accustomed to thinking about non-fatty vegetables as sources of omega-3 fats, but we need to change our thinking in this area. While it is true that there are limited amounts of omega-3s in vegetables like broccoli, it is equally true that their levels of omega-3s can still play an important role in balancing our inflammatory system activity. In 100 calories' worth of broccoli (about 2 cups) there are approximately 450 milligrams of omega-3s (in the form of alpha-linolenic acid, or ALA). That amount of ALA falls into the same general ballpark as the amount provided by one soft gel capsule of flax oil. While we would not want to depend on broccoli as our sole source of dietary omega-3s, we still get important anti-inflammatory benefits from the omega-3s it provides.
As mentioned earlier in this section, chronic inflammation can sometimes get triggered by overexposure to allergy-related substances. In this context, broccoli has yet another anti-inflammatory trick up its sleeve, because it is a rich source of one particular phytonutrient (a flavonol) called kaempferol. Especially inside of our digestive tract, kaempferol has the ability to lessen the impact of allergy-related substances (by lowering the immune system's production of IgE-antibodies). By lessening the impact of allergy-related substances, the kaempferol in broccoli can help lower our risk of chronic inflammation.

Broccoli's Antioxidant Benefits
Amongst all of the commonly consumed cruciferous vegetables, broccoli stands out as the most concentrated source of a premiere antioxidant nutrient—vitamin C. This central antioxidant vitamin can provide longer-term support of oxygen metabolism in the body if it is accompanied by flavonoids that allow it to recycle. Broccoli provides many such flavonoids in significant amounts, including the flavonoids kaempferol and quercitin. Also concentrated in broccoli are the carotenoids lutein, zeaxanthin, and beta-carotene. All three of these carotenoids function as key antioxidants. In the case of lutein and beta-carotene, broccoli has been shown not only to provide significant amounts of these antioxidants but to significantly increase their blood levels when consumed in the amount of three cups. Other antioxidants provided by broccoli in beneficial amounts include vitamin E and the minerals manganese and zinc.

Considered as a group, the vitamins, minerals, flavonoids, and carotenoids contained in broccoli work to lower risk of oxidative stress in the body. The ability of these nutrients to support oxygen metabolism and avoid excess formation of overly reactive, oxygen-containing molecules makes them equally helpful in lowering risk of chronic inflammation and risk of cancer. If cancer development is compared to a 3-legged stool, the antioxidant benefits of broccoli can be viewed as weakening one leg of the stool, namely the leg called "oxidative stress." We've already seen how the glucosinolates and omega-3 fats in broccoli can be viewed as helping to weaken a second leg of the stool (chronic inflammation). In the next section, we'll look at a third leg of the stool (inadequate detoxification) and see how the nutrients found in broccoli can serve to weaken this leg as well.

Broccoli Can Enhance Detoxification
Most toxins that pose a risk to our cells must be detoxified in our body by a 2-step process. What's remarkable about broccoli is its ability to alter activity in both of these two detox steps. Isothiocyanates (ITCs) made from the glucosinolates in broccoli are well-documented modifiers of the first step in detoxification (called Phase I). In fact, some ITCs like sulforaphane can actually help shut down the genetic machinery that produces certain Phase I enzymes. ITCs are equally capable of altering the activity of enzymes involved in the second step of detoxification (called Phase II). From research in the field of genetics, we know that ITCs can help bridge gaps in Phase II activity when it is insufficient. Taken in combination, the impact of ITCs on Phase I and II detox events is unique—and equally unique is the presence of glucosinolate compounds in broccoli that can be used to make ITCs. Glucosinolates like glucoraphanin, gluconasturtiian, and glucobrassicin are simply not found in other foods in the same combination and concentration that is offered by broccoli. By helping to promote as well as regulate detox activity in our cells, the ITCs made from broccoli can help prevent insufficient detoxification of dangerous substances that threaten our cells.

Broccoli and Cancer Prevention
The unique combination of antioxidant, anti-inflammatory, and pro-detoxification components in broccoli make it a unique food in terms of cancer prevention. Connections between cancer development and oxidative stress, chronic inflammation, and inadequate detoxification are so well-documented in the research that any food improving all three of these metabolic problems would be highly likely to lower our risk of cancer. In the case of broccoli, the research is strongest in showing decreased risk of prostate cancer, colon cancer, breast cancer, bladder cancer, and ovarian cancer. We expect that risk of other cancer types will also eventually be shown to undergo reduction from regular consumption of broccoli.

How Much Broccoli Is Needed for Cancer Prevention?
Recent studies have also provided us with a much better idea about the amount of broccoli that we need to lower our cancer risk. At the lower end of the spectrum, it looks like an average of 1/2 cup of broccoli per day—only 22 calories' worth of broccoli!—is enough to provide some measurable benefits. Few people have broccoli on a daily basis. But a 2-cup serving twice a week would still meet this minimum average amount. It's important to remember how little this amount actually in within the context of one week's food. A person eating 2,000 calories per day would be consuming 14,000 calories per week. A 2-cup serving of broccoli twice a week would provide about 178 calories—only 1% of the total weekly calories! At the higher end of the spectrum, studies show that more broccoli might be needed to accomplish other cancer-preventing tasks. For example, one study showed significantly higher urinary excretion of potential carcinogens from well-done, grilled meats given daily consumption of broccoli in the range of 9 ounces (250 grams) per day. That gram amount corresponds to approximately 1.6 cups of broccoli on a daily basis. We've also seen a study showing that "generous" amounts of broccoli can help optimize levels of antioxidants in the blood, especially beta-carotene and lutein. (Optimal antioxidant levels can help lower the risk of oxidative stress in healthy cells, which also helps lower their risk of becoming cancerous.) In this study, the term "generous" was used to describe consumption of broccoli in the amount of 3 cups daily. Once again, that amount would not be ridiculously high in terms of calories—3 cups would provide about 132 calories, or 6-7% of a 2,000-calorie diet. But it might be a greater amount that many people would want to consume on a regular basis.

For us, the bottom line here is not to treat broccoli like garnish. In recipes like our Asian-Flavored Broccoli with Tofu or 5-Minute Broccoli with Feta Cheese and Kalamata Olives recipes, we use 1 pound of broccoli to provide two servings. That's approximately 1.5 cups of broccoli per serving. There is no reason to shy away from 2-3 cup servings of broccoli when enjoying this cruciferous vegetable, especially if you want to optimize its cancer-preventing benefits. But make sure you're not simply "decorating" your plate with single broccoli stalk and floret.

Broccoli and Digestive Support
The digestive support provided by broccoli falls into two basic categories: fiber support, and ITC (isothiocyanate) support. At approximately 1 gram of dietary fiber for every 10 calories, you don't have to eat much broccoli to get a large amount of your daily requirement! For 100 calories—only 5% of a 2,000-calorie diet—you get about 10 grams of fiber, or 40% of the Daily Value (DV). And, 250 calories of broccoli (about 12% of a 2,000-calorie diet) will give you the full DV! Few components of food support our digestive system as well as fiber. The speed that food travels through us, the consistency of food as it moves through our intestine, and bacterial populations in our intestine are all supported as well as regulated by dietary fiber.
Alongside of broccoli's dietary fibers are its glucosinolates. These phytonutrients are converted by our bodies into isothiocyanates (ITCs). ITCs—and particularly sulforaphane—help protect the health of our stomach lining by helping prevent bacterial overgrowth of Helicobacter pylori or too much clinging by this bacterium to our stomach wall. Broccoli sprouts appear to have especially strong stomach support properties in this regard.

Broccoli and Cardiovascular Support
Although research in this area is still in the early stages, anti-inflammatory substances found in cruciferous vegetables are becoming the topic of increasing interest with respect to heart disease. One particular focus here involves the anti-inflammatory properties of sulforaphane, one of the isothiocyanates (ITCs) derived from the glucoraphanin in broccoli. In some individuals susceptible to high blood sugar, sulforaphane may be able to prevent (or even reverse) some of the damage to blood vessel linings that can be cause by chronic blood sugar problems. Decreased risk of heart attacks and strokes may also eventually be linked in a statistically significant way to intake of broccoli and its glucoraphanin.
A second area you can count on broccoli for cardiovascular support involves its cholesterol-lowering ability. Our liver uses cholesterol as a basic building block to product bile acids. Bile acids are specialized molecules that aid in the digestion and absorption of fat through a process called emulsification. These molecules are typically stored in fluid form in our gall bladder, and when we eat a fat-containing meal, they get released into the intestine where they help ready the fat for interaction with enzymes and eventual absorption up into the body. When we eat broccoli, fiber-related nutrients in this cruciferous vegetable bind together with some of the bile acids in the intestine in such a way that they simply stay inside the intestine and pass out of our body in a bowel movement, rather than getting absorbed along with the fat they have emulsified. When this happens, our liver needs to replace the lost bile acids by drawing upon our existing supply of cholesterol, and as a result, our cholesterol level drops down. Broccoli provides us with this cholesterol-lowering benefit whether it is raw or cooked. However, a recent study has shown that the cholesterol-lowering ability of raw broccoli improves significantly when it is steamed. In fact, when the cholesterol-lowering ability of steamed broccoli was compared with the cholesterol-lowering ability of the prescription drug cholestyramine (a medication that is taken for the purpose of lowering cholesterol), broccoli bound 33% as many bile acids (based on a standard of comparison involving total dietary fiber).

The B-complex vitamins in broccoli can also make a major contribution to our cardiovascular health. Especially with respect to excessive formation of homocysteine—an event which raises our risk of atherosclerosis, stroke, and heart attack—B-complex vitamin deficiency intake can pose a major risk. Three B vitamins especially important for lowering our risk of hyperhomocysteinemia (excessive formation of homocysteine) are vitamin B6, vitamin B12, and folate. By making an important contribution to our B6 and folate intake, broccoli can help us lower our risk of excessive homocysteine formation and cardiovascular problems that are related to excess homocysteine.

Other Health Benefits Provided by Broccoli
Three other areas of health benefits are important to mention when considering broccoli and its unique combination of nutrients. The first area is eye health. Two carotenoids found in significant concentrations in broccoli—lutein and zeaxanthin—play an especially important role in the health of the eye. In fact, no tissue in the body is more concentrated with lutein than the area in the outer portion of the retina (called the peripheral retina). Similarly, in the macula near the central portion of the retina, zeaxanthin is uniquely concentrated. Risk of problems involving the macula of the eye (for example, macular degeneration) and problems involving the lens area of the eye (for example, cataracts) have both been show to lessen with intake of foods (including broccoli) that provide significant amounts of the lutein and zeaxanthin carotenonids.
A second area is skin support, including support of sun-damaged skin. Here it is the glucoraphanin found in broccoli—converted into sulforaphane by the body—that has received the most research attention. Since skin cells can carry out the process of detoxification, it may be detox-related benefits of sulforaphane that are especially important in helping to counteract sun damage.

A third area of increasing research interest involves the metabolism of vitamin D. Broccoli is not a source of this vitamin, but it is an unusually good source of vitamin K and also of vitamin A (in one of its precursor forms, beta-carotene). Many individuals have large vitamin D deficiencies that cannot be remedied through diet alone, and these deficiencies require sizable amounts of vitamin D to be provided through dietary supplementation. When large supplemental doses of vitamin D are needed to offset deficiency, ample supplies of vitamin K and vitamin A appear to help keep our vitamin D metabolism in the proper balance. Assuring adequate intake of vitamins K and A alongside of vitamin D supplementation may turn out to be important in achieving optimal vitamin D supplementation results and avoiding potential problems related to supplementation. Broccoli may turn out to play a particularly helpful role in balancing this set of events by providing its unusually strong combination of both vitamin A and vitamin K.

Broccoli is a member of the cabbage family, and is closely related to cauliflower. Its cultivation originated in Italy. Broccolo, its Italian name, means "cabbage sprout." Broccoli's name is derived from the Latin word brachium, which means branch or arm, a reflection of its tree-like shape that features a compact head of florets attached by small stems to a larger stalk. Because of its different components, this vegetable provides a complex of tastes and textures, ranging from soft and flowery (the florets) to fibrous and crunchy (the stem and stalk). Its color can range from deep sage to dark green to purplish-green, depending upon the variety. One of the most popular types of broccoli sold in North America is known as Italian green, or Calabrese, named after the Italian province of Calabria where it first grew.
Other vegetables related to broccoli are broccolini, a mix between broccoli and gai-lin (Chinese broccoli), and broccoflower, a cross between broccoli and cauliflower. Broccoli sprouts have also recently become popular as a result of research uncovering their high concentration of the anti-cancer phytonutrient, sulforaphane.

Broccoli has its roots in Italy. In ancient Roman times, it was developed from wild cabbage, a plant that more resembles collards than broccoli. It spread through out the Near East where it was appreciated for its edible flower heads and was subsequently brought back to Italy where it was further cultivated. Broccoli was introduced to the United States in colonial times, popularized by Italian immigrants who brought this prized vegetable with them to the New World.

Choose broccoli with floret clusters that are compact and not bruised. They should be uniformly colored, either dark green, sage or purple-green, depending upon variety, and with no yellowing. In addition, they should not have any yellow flowers blossoming through, as this is a sign of over maturity. The stalk and stems should be firm with no slimy spots appearing either there or on the florets. If leaves are attached, they should be vibrant in color and not wilted.
Place broccoli in a plastic bag, removing as much of the air from the bag as possible. Store in the refrigerator where it will keep for 10 days. Do not wash broccoli before storing because exposure to water encourages spoilage. Partial heads of broccoli should be placed in a well-sealed container or plastic bag and refrigerated. Since the vitamin C content starts to quickly degrade once broccoli has been cut, it is best to use it within a couple of days. Broccoli that has been blanched and then frozen can stay up to a year. Leftover cooked broccoli should be placed in tightly covered container and stored in the refrigerator where it will keep for a few days.

T
ips for Preparing Broccoli
Rinse broccoli under cold running water. Cut florets into quarters for quick and even cooking. Be sure to enjoy the stems and leaves of broccoli; they provide a good balance of flavors. Peel the broccoli stem and cut the stem into 1/2" slices To get unique health benefits from broccoli, let it sit for several minutes before cooking.
The Healthiest Way of Cooking Broccoli

If you're cooking broccoli, make sure to support your nourishment by sticking with a low cooking temperature in a range that includes the steaming temperature of 212°F (100°C), with a cooking times of 5 minutes at the most. Since the fibrous stems take longer to cook, they can be prepared separately for a few minutes before adding the florets. For quicker cooking, make lengthwise slits in the stems. While people do not generally eat the leaves, they are perfectly edible and contain concentrated amounts of nutrients.
We recommend Healthy Steaming broccoli for maximum nutrition and flavor. Fill the bottom of a steamer pot with 2 inches of water. While waiting for the water to come to a rapid boil prepare broccoli florets and stems. Steam stems for 2 minutes before adding the florets and leaves. Steam for 5 more minutes. Toss with our Mediterranean Dressing and top with your favorite optional ingredients.
H
ealthy Steaming versus Microwaving Broccoli
The principle of a 212°F (100°C) or lower cooking temperature leaves you with several cooking options for your broccoli. Our cooking method of choice for this cruciferous vegetable is steaming. We've seen studies on flavonoids in broccoli, B complex vitamins in broccoli, vitamin C in broccoli, as well as carotenoids and chlorophyll and glucosinolates in broccoli, and in all cases, steaming has been shown to do a better job of preserving nutrients than other cooking methods. You'll find some websites encouraging you to microwave your vegetables, including broccoli. We don't believe that this recommendation is supported by the research. But in addition, we believe that it's important for you to understand why. Many nutrients can be lost from food when the food surface comes into direct contact with water. Hotter water temperatures leech more nutrients from food, as will longer cooking times. Most research on microwaved broccoli has involved the placement of broccoli in a microwave container that has been partially or completely filled with water. That practice means direct water contact with all or part of the broccoli surfaces. Steaming, by comparison, leaves the broccoli in contact with steam only and can reduce nutrient loss for this reason. It's possible to steam broccoli in a microwave, but since metal containers (like stainless steel) cannot be used in a microwave oven, plastic microwave steamers are the only widely available option here, and we generally try to avoid the heating of foods in plastic in the microwave due to risk of plastic migration into the food. All of the factors described above makes it difficult to microwave broccoli with as little direct water contact or as shortened cooking times as steaming. We also like the more uniform exposure to heat that occurs with steaming.

Stir-Frying Broccoli
In general, we try to avoid the stir-frying of foods in oil due to risk of nutrient damage in the oil from high heat. That being said, we have seen a study of broccoli stir-frying that produced some fairly encouraging results with respect to nutrient retention in the broccoli. (The study did not measure nutrient damage in the oil.) The stir-frying took place for 3-1/2 minutes in a frying pan heated to 248°-284°F (120°-140°C). Approximately two-thirds or more of the nutrients examined (including vitamins, minerals, phenols, and glucosinolates) were retained after stir-frying. Given these results, if you are planning to stir-fry your broccoli, we'd recommend a lower-heat skillet (at approximately 250°F/121°C) and a relatively short stir-frying time of about 3 minutes or less.

Raw Broccoli and Broccoli Sprouts
Both cooked and raw broccoli can make excellent additions to your meal plan. If you enjoy raw broccoli, by all means include it in your diet! There may be some special advantages for your digestive tract when broccoli is eaten in uncooked form. And if you're concerned about issues involving enzymes and sulfur compounds in broccoli—don't be! With fresh raw broccoli, simple slicing a few minutes prior to eating or thorough chewing of unsliced pieces will help activate sulfur-metabolizing enzymes. Another form of broccoli you may also want to try in you enjoy raw broccoli is broccoli sprouts. Some of the nutrients found in broccoli—like vitamin C—are especially concentrated in broccoli sprouts. Remember that all raw broccoli requires more thorough chewing than cooked broccoli, so take your time enjoying the textures and flavors of this amazing vegetable.

Nutrient and Health Benefits of Raw Broccoli
We've been especially impressed in the most recent research by the impact of uncooked broccoli—as well as uncooked broccoli sprouts—on the health of the stomach and stomach lining. Many stomach problems have been linked in research studies with overgrowth of a bacterium called Helicobacter pylori, and also with excessive attachment of this bacterium to the inner stomach lining. Raw broccoli sprouts appear to provide special stomach support with respect to these unwanted overgrowth and over-attachment circumstances. It's not that steamed broccoli provides no support in this regard, because it does provide support. It's just that uncooked broccoli and broccoli sprouts may be especially helpful in providing these benefits. We've seen several research studies using what's called "HG broccoli," or high glucosinolate broccoli, to investigate genetic activities in the stomach lining cells. The glucosinolates in broccoli are clearly a key part of broccoli's ability to support stomach health, and they are very likely to alter gene expression in cells that provide the stomach with its inner lining. HG broccoli is not a commercially marketed form of broccoli that you can find in the grocery store, but ordinary broccoli will still provide you with plenty of glucosinolate phytonutrients.

Broccoli as a "Goitrogenic" Food
Broccoli is sometimes referred to as a "goitrogenic" food. Yet, contrary to popular belief, according to the latest studies, foods themselves—broccoli included—are not "goitrogenic" in the sense of causing goiter whenever they are consumed, or even when they are consumed in excess. In fact, most foods that are commonly called "goitrogenic"—such as the cruciferous vegetables (including broccoli, kale, and cauliflower) and soyfoods—do not interfere with thyroid function in healthy persons even when they are consumed on a daily basis. Nor is it scientifically correct to say that foods "contain goitrogens," at least not if you are thinking about goitrogens as a category of substances like proteins, carbohydrates, or vitamins. With respect to the health of our thyroid gland, all that can be contained in a food are nutrients that provide us with a variety of health benefits but which, under certain circumstances, can also interfere with thyroid function. The term "goitrogenic food" makes it sound as if something is wrong with the food, but that is simply not the case. What causes problems for certain individuals is not the food itself but the mismatched nature of certain substances within the food to their unique health circumstances.

Broccoli is an excellent source of immune-supportive vitamin C, anti-inflammatory vitamin K, and heart-healthy folate. It is a very good source of free-radical-scavenging vitamin A (through its concentration of carotenoid phytonutrients), enzyme-activating manganese and molybdenum; digestive-health-supporting fiber; heart-healthy potassium and vitamin B6; and energy-producing vitamin B2 and phosphorus. It is a good source of energy-producing vitamin B1, vitamin B3, vitamin B5, protein, and iron; bone-healthy magnesium and calcium; and antioxidant-supportive vitamin E and selenium.

Broccoli is also concentrated in phytonutrients. In one particular phytonutrient category—glucosinolates—broccoli is simply outstanding. The isothiocyanates (ITCs) made from broccoli's glucosinolates are the key to broccoli's cancer-preventive benefits.


n-Depth Nutritional Profile
In addition to the nutrients highlighted in our ratings chart, an in-depth nutritional profile for Broccoli is also available. This profile includes information on a full array of nutrients, including carbohydrates, sugar, soluble and insoluble fiber, sodium, vitamins, minerals, fatty acids, amino acids and more.

Introduction to Food Rating System Chart
In order to better help you identify foods that feature a high concentration of nutrients for the calories they contain, we created a Food Rating System. This system allows us to highlight the foods that are especially rich in particular nutrients. The following chart shows the nutrients for which this food is either an excellent, very good, or good source (below the chart you will find a table that explains these qualifications). If a nutrient is not listed in the chart, it does not necessarily mean that the food doesn't contain it. It simply means that the nutrient is not provided in a sufficient amount or concentration to meet our rating criteria. (To view this food's in-depth nutritional profile that includes values for dozens of nutrients - not just the ones rated as excellent, very good, or good - please use the link below the chart.) To read this chart accurately, you'll need to glance up in the top left corner where you will find the name of the food and the serving size we used to calculate the food's nutrient composition. This serving size will tell you how much of the food you need to eat to obtain the amount of nutrients found in the chart. Now, returning to the chart itself, you can look next to the nutrient name in order to find the nutrient amount it offers, the percent Daily Value (DV%) that this amount represents, the nutrient density that we calculated for this food and nutrient, and the rating we established in our rating system. For most of our nutrient ratings, we adopted the government standards for food labeling that are found in the U.S. Food and Drug Administration's "Reference Values for Nutrition Labeling.


Broccoli
1.00 cup raw
91.00 grams
30.94 calories
NutrientAmountDV
(%)
Nutrient
Density
World's Healthiest
Foods Rating
vitamin C81.17 mg135.378.7excellent
vitamin K92.46 mcg115.667.2excellent
folate57.33 mcg14.38.3excellent
vitamin A566.93 IU11.36.6very good
manganese0.19 mg9.55.5very good
fiber2.37 g9.55.5very good
tryptophan0.03 g9.45.5very good
potassium287.56 mg8.24.8very good
vitamin B60.16 mg8.04.7very good
vitamin B20.11 mg6.53.8very good
molybdenum4.55 mcg6.13.5very good
phosphorus60.06 mg6.03.5very good
vitamin B50.52 mg5.23.0good
protein2.57 g5.13.0good
magnesium19.11 mg4.82.8good
calcium42.77 mg4.32.5good
choline17.02 mg4.02.3good
vitamin B10.06 mg4.02.3good
iron0.66 mg3.72.1good
vitamin E0.71 mg3.52.1good
selenium2.27 mcg3.21.9good
vitamin B30.58 mg2.91.7good
World's Healthiest
Foods Rating
Rule
excellent DV>=75% OR
Density>=7.6 AND DV>=10%
very good DV>=50% OR
Density>=3.4 AND DV>=5%
good DV>=25% OR
Density>=1.5 AND DV>=2.5%



Cauliflower


Nutrients in
Cauliflower
1.00 cup raw (107.00 grams)
Nutrient%Daily Value

vitamin C85.9%

vitamin K20.7%

folate15.2%

choline11.1%

vitamin B610%

potassium9.1%

fiber8.5%

manganese8.5%

molybdenum7.1%

vitamin B57.1%

tryptophan6.2%

phosphorus4.7%

protein4.1%

magnesium4%

vitamin B23.5%

vitamin B13.3%

vitamin B32.7%

iron2.5%

Calories (26)1%


This chart graphically details the %DV that a serving of Cauliflower provides for each of the nutrients of which it is a good, very good, or excellent source according to our Food Rating System. Additional information about the amount of these nutrients provided by Cauliflower can be found in the Food Rating System Chart. A link that takes you to the In-Depth Nutritional Profile for Cauliflower, featuring information over 80 nutrients, can be found under the Food Rating System Chart.
While cauliflower is not a well-studied cruciferous vegetable from a health standpoint, you will find several dozen studies linking cauliflower-containing diets to cancer prevention, particularly with respect to the following types of cancer: bladder cancer, breast cancer, colon cancer, prostate cancer, and ovarian cancer. This connection between cauliflower and cancer prevention should not be surprising, since cauliflower provides special nutrient support for three body systems that are closely connected with cancer development as well as cancer prevention. These three systems are (1) the body's detox system, (2) its antioxidant system, and (3) its inflammatory/anti-inflammatory system. Chronic imbalances in any of these three systems can increase risk of cancer, and when imbalances in all three systems occur simultaneously, the risk of cancer increases significantly.

Detox Support Provided by Cauliflower
The detox support provided by cauliflower includes antioxidant nutrients to boost Phase 1 detoxification activities and sulfur-containing nutrients to boost Phase 2 activities. Cauliflower also contains phytonutrients called glucosinolates that can help activate detoxification enzymes and regulate their activity. Three glucosinolates that have been clearly identified in cauliflower are glucobrassicin, glucoraphanin, and gluconasturtiian. While the glucosinolate content of cauliflower is definitely significant from a health standpoint, cauliflower contains about one-fourth as much total glucosinolates as Brussels sprouts, about one-half as much as Savoy cabbage, about 60% as much as broccoli, and about 70% as much as kale.
If we fail to give our body's detox system adequate nutritional support, yet continue to expose ourselves to unwanted toxins through our lifestyle and our dietary choices, we can place our bodies at increased risk of toxin-related damage that can eventually increase our cells' risk of becoming cancerous. That's one of the reasons it's so important to bring cauliflower and other cruciferous vegetables into our diet on a regular basis.

Cauliflower's Antioxidant Benefits
As an excellent source of vitamin C, and a very good source of manganese, cauliflower provides us with two core conventional antioxidants. But its antioxidant support extends far beyond the conventional nutrients into the realm of phytonutrients. Beta-carotene, beta-cryptoxanthin, caffeic acid, cinnamic acid, ferulic acid, quercetin, rutin, and kaempferol are among cauliflower's key antioxidant phytonutrients. This broad spectrum antioxidant support helps lower the risk of oxidative stress in our cells. Chronic oxidative stress—meaning chronic presence over overly reactive oxygen-containing molecules and cumulative damage to our cells by these molecules—is a risk factor for development of most cancer types. By providing us with such a great array of antioxidant nutrients, cauliflower helps lower our cancer risk by helping us avoid chronic and unwanted oxidative stress.

Cauliflower's Anti-inflammatory Benefits
As an excellent source of vitamin K, cauliflower provides us with one of the hallmark anti-inflammatory nutrients. Vitamin K acts as a direct regulator of our inflammatory response. In addition, one of the glucosinolates found in cauliflower—glucobrassicin—can be readily converted into an isothiocyanate molecule called ITC, or indole-3-carbinol. I3C is an anti-inflammatory compound that can actually operate at the genetic level, and by doing so, prevent the initiation of inflammatory responses at a very early stage.
Like chronic oxidative stress and chronic weakened detox ability, chronic unwanted inflammation can significantly increase our risk of cancers and other chronic diseases (especially cardiovascular diseases).

Cauliflower and Cardiovascular Support
Scientists have not always viewed cardiovascular problems as having a central inflammatory component, but the role of unwanted inflammation in creating problems for our blood vessels and circulation has become increasingly fundamental to an understanding of cardiovascular diseases. The anti-inflammatory support provided by cauliflower (including its vitamin K and omega-3 content) makes it a food also capable of providing cardiovascular benefits. Of particular interest is its glucoraphanin content. Glucoraphanin is a glucosinolate that can be converted into the isothiocyanate (ITC) sulforaphane. Not only does sulforaphane trigger anti-inflammatory activity in our cardiovascular system—it may also be able to help prevent and even possibly help reverse blood vessel damage.

Cauliflower and Digestive Support
The fiber content of cauliflower—nearly 12 grams in every 100 calories—makes this cruciferous vegetable a great choice for digestive system support. You're going to get nearly half of the fiber Daily Value from 200 calories' worth of cauliflower. Yet the fiber content of cauliflower is only one of its digestive support mechanisms. Researchers have determined that the sulforaphane made from a glucosinolate in cauliflower (glucoraphanin) can help protect the lining of your stomach. Sulforaphane provides you with this health benefit by preventing bacterial overgrowth of Helicobacter pylori in your stomach or too much clinging by this bacterium to your stomach wall.

Other Health Benefits from Cauliflower
The anti-inflammatory nature of glucosinolates/isothiocyanates and other nutrients found in cauliflower has been the basis for new research on inflammation-related health problems and the potential role of cauliflower in their prevention. While current studies are examining the benefits of cruciferous vegetables as a group rather than cauliflower in particular, promising research is underway that should shed light on the potential benefits of cauliflower in relationship to our risk of the following inflammation-related health problems: Crohn's disease, inflammatory bowel disease, insulin resistance, irritable bowel syndrome, metabolic syndrome, obesity, rheumatoid arthritis, type 2 diabetes, and ulcerative colitis.
All cruciferous vegetables provide integrated nourishment across a wide variety of nutritional categories and provide broad support across a wide variety of body systems as well. For more on cruciferous vegetables see:
Cauliflower, a cruciferous vegetable, is in the same plant family as broccoli, kale, cabbage and collards. It has a compact head (called a "curd"), with an average size of six inches in diameter, composed of undeveloped flower buds. The flowers are attached to a central stalk. When broken apart into separate buds, cauliflower looks like a little tree, something that many kids are fascinated by.

Surrounding the curd are ribbed, coarse green leaves that protect it from sunlight, impeding the development of chlorophyll. While this process contributes to the white coloring of most of the varieties, cauliflower can also be found in light green and purple colors. Between these leaves and the florets are smaller, tender leaves that are edible.
Raw cauliflower is firm yet a bit spongy in texture. It has a slightly sulfurous and faintly bitter flavor.

The milk, sweet, almost nutty flavor of cauliflower is at its best from December through March when it is in season and most plentiful in your local markets.
Cauliflower traces its ancestry to the wild cabbage, a plant thought to have originated in ancient Asia Minor, which resembled kale or collards more than the vegetable that we now know it to be.

The cauliflower went through many transformations and reappeared in the Mediterranean region, where it has been an important vegetable in Turkey and Italy since at least 600 B.C.
It gained popularity in France in the mid-16th century and was subsequently cultivated in Northern Europe and the British Isles. The United States, France, Italy, India, and China are countries that produce significant amounts of cauliflower.
When purchasing cauliflower, look for a clean, creamy white, compact curd in which the bud clusters are not separated. Spotted or dull-colored cauliflower should be avoided, as well as those in which small flowers appear.

Heads that are surrounded by many thick green leaves are better protected and will be fresher. As its size is not related to its quality, choose one that best suits your needs.
Store uncooked cauliflower in a paper or plastic bag in the refrigerator where it will keep for up to a week. To prevent moisture from developing in the floret clusters, store it with the stem side down.

If you purchase pre-cut cauliflower florets, consume them within one or two days as they will lose their freshness after that. Since cooking causes cauliflower to spoil quicker, consume it within two to three days of placing in the refrigerator after cooking.
Tips for Preparing Cauliflower
Cauliflower florets are the part of the plant that most people eat. However, the stem and leaves are edible too and are especially good for adding to soup stocks.
To cut cauliflower, first remove the outer leaves and then slice the florets at the base where they meet the stalks. You can further cut them, if you desire pieces that are smaller or of uniform size. Trim any brown coloration that may exist on the edges.

Cauliflower contains phytonutrients that release odorous sulfur compounds when heated. These odors become stronger with increased cooking time. If you want to minimize odor, retain the vegetable's crisp texture, and reduce nutrient loss, cook the cauliflower for only a short time.
Some phytonutrients may react with iron in cookware and cause the cauliflower to take on a brownish hue. To prevent this, add a bit of lemon juice to the water in which you blanch the cauliflower.

The Healthiest Way of Cooking Cauliflower
From all of the cooking methods we tried when cooking cauliflower, our favorite is Healthy Sauté. We think that it provides the greatest flavor and is also a method that allows for concentrated nutrient retention. Begin by cutting cauliflower florets into quarters and let sit for at least 5 minutes to enhance its health-promoting benefits. To Healthy Sauté cauliflower, heat 5 TBS of broth (vegetable or chicken) or water in a stainless steel skillet. Once bubbles begin to form add cauliflower florets (cut into quarters) and turmeric, cover, and Healthy Sauté for 5 minutes. 

Cauliflower and Purines
Cauliflower contains naturally occurring substances called purines. Purines are commonly found in plants, animals, and humans. In some individuals who are susceptible to purine-related problems, excessive intake of these substances can cause health problems. Since purines can be broken down to form uric acid, excess accumulation of purines in the body can lead to excess accumulation of uric acid. The health condition called "gout" and the formation of kidney stones from uric acid are two examples of uric acid-related problems that can be related to excessive intake of purine-containing foods. For this reason, individuals with kidney problems or gout may want to limit or avoid intake of purine-containing foods such as cauliflower.

Cauliflower as a "Goitrogenic" Food
Cauliflower is sometimes referred to as a "goitrogenic" food. Yet, contrary to popular belief, according to the latest studies, foods themselves—cauliflower included—are not "goitrogenic" in the sense of causing goiter whenever they are consumed, or even when they are consumed in excess. In fact, most foods that are commonly called "goitrogenic"—such as the cruciferous vegetables (including cabbage, broccoli, kale, and cauliflower) and soyfoods—do not interfere with thyroid function in healthy persons even when they are consumed on a daily basis. Nor is it scientifically correct to say that foods "contain goitrogens," at least not if you are thinking about goitrogens as a category of substances like proteins, carbohydrates, or vitamins. With respect to the health of our thyroid gland, all that can be contained in a food are nutrients that provide us with a variety of health benefits but which, under certain circumstances, can also interfere with thyroid function. The term "goitrogenic food" makes it sound as if something is wrong with the food, but that is simply not the case. What causes problems for certain individuals is not the food itself but the mismatched nature of certain substances within the food to their unique health circumstances.

Cauliflower is an excellent source of vitamin C, vitamin K, and folate. It is a very good source of vitamin B5, potassium, dietary fiber, manganese, and molybdenum. Additionally, it is a good source of protein, phosphorus, magnesium, vitamin B1, vitamin B2, vitamin B3, and iron.

In-Depth Nutritional Profile
In addition to the nutrients highlighted in our ratings chart, an in-depth nutritional profile for Cauliflower is also available. This profile includes information on a full array of nutrients, including carbohydrates, sugar, soluble and insoluble fiber, sodium, vitamins, minerals, fatty acids, amino acids and more.

Introduction to Food Rating System Chart
In order to better help you identify foods that feature a high concentration of nutrients for the calories they contain, we created a Food Rating System. This system allows us to highlight the foods that are especially rich in particular nutrients. The following chart shows the nutrients for which this food is either an excellent, very good, or good source (below the chart you will find a table that explains these qualifications). If a nutrient is not listed in the chart, it does not necessarily mean that the food doesn't contain it. It simply means that the nutrient is not provided in a sufficient amount or concentration to meet our rating criteria. (To view this food's in-depth nutritional profile that includes values for dozens of nutrients - not just the ones rated as excellent, very good, or good - please use the link below the chart.) To read this chart accurately, you'll need to glance up in the top left corner where you will find the name of the food and the serving size we used to calculate the food's nutrient composition. This serving size will tell you how much of the food you need to eat to obtain the amount of nutrients found in the chart. Now, returning to the chart itself, you can look next to the nutrient name in order to find the nutrient amount it offers, the percent Daily Value (DV%) that this amount represents, the nutrient density that we calculated for this food and nutrient, and the rating we established in our rating system. For most of our nutrient ratings, we adopted the government standards for food labeling that are found in the U.S. Food and Drug Administration's "Reference Values for Nutrition Labeling.



Cauliflower
1.00 cup raw
107.00 grams
26.75 calories
NutrientAmountDV
(%)
Nutrient
Density
World's Healthiest
Foods Rating
vitamin C51.57 mg86.057.8excellent
vitamin K16.59 mcg20.714.0excellent
folate60.99 mcg15.210.3excellent
choline47.40 mg11.27.5very good
vitamin B60.20 mg10.06.7very good
potassium319.93 mg9.16.2very good
fiber2.14 g8.65.8very good
manganese0.17 mg8.55.7very good
molybdenum5.35 mcg7.14.8very good
vitamin B50.71 mg7.14.8very good
tryptophan0.02 g6.24.2very good
phosphorus47.08 mg4.73.2good
protein2.05 g4.12.8good
magnesium16.05 mg4.02.7good
vitamin B20.06 mg3.52.4good
vitamin B10.05 mg3.32.2good
vitamin B30.54 mg2.71.8good
iron0.45 mg2.51.7good
World's Healthiest
Foods Rating
Rule
excellent DV>=75% OR
Density>=7.6 AND DV>=10%
very good DV>=50% OR
Density>=3.4 AND DV>=5%

good DV>=25% OR
Density>=1.5 AND DV>=2.5%