CORN

  

Health Benefits

Corn has gathered a diverse reputation in the India, US and UK. For some people, corn is a "staple" food that provides the foundation for tortillas, burritos, or polenta. For others, corn is a "snack" food that comes in the form of popcorn and corn chips. For still others, corn is a "special summertime food" that is essential at barbecues and cookouts. But regardless of its reputation, corn is seldom considered in the India as a unique source of health benefits. Yet that's exactly what research results are telling us about this amazing grain.

 

 

Antioxidant Benefits of Corn

While it might sound surprising to some people who are used to thinking about corn as a plain, staple food, or a snack food, or a summertime party food, corn is actually a unique phytonutrient rich food that provides us with well-documented antioxidant benefits. In terms of conventional antioxidant nutrients, corn is a good source of the mineral manganese. But it is corn's phytonutrients that have taken center stage in the antioxidant research on corn. When all varieties of corn are considered as a group, the list of corn's key antioxidant nutrients appears as follows:

Antioxidant Phytonutrients in Corn

• anthocyanins
• beta-carotene
• caffeic acid
• coumaric acid
• ferulic acid
• lutein
• syringic acid
• vanillic acid
• protocatechuic acid
• zeaxanthin

 

 

 

Basic Nutrient, Phytonutrient, and Antioxidant Benefits from Corn

While many people think about corn along the lines of a "staple food" that can be dried, ground, and then used to make corn meal, corn flour, and a variety of related foods, corn can also be enjoyed in fresh form and fresh corn can be the source of many key nutrients. The ear of cooked, yellow corn that we profile on our website is a good source of several B vitamins, including vitamins B3, B6, and pantothenic acid. In fact, in some cultures where corn serves as a major meal component, its vitamin B3 content can be especially important for preventing B3-deficiency related problems. Fresh corn is also a good source of fiber, and of the mineral phosphorus. In short, it would be a mistake to think about this food as nothing more than a "staple."

In terms of phytonutrients, corn is best known for its carotenoids. Lutein and zeaxanthin are the primary carotenoids found in corn. But also present are beta carotene and beta cryptoxanthin. The steaming of corn has been determined to better preserve the lutein and zeaxanthin in corn than either boiling of pressure cooking. (And of course Quick Steaming is our preferred cooking method for this food.)

The carotenoids listed above can all function as antioxidants but they are not the only antioxidants present in corn. The mineral manganese, which is provided in a good amount by corn, is an antioxidant mineral that is required for activity of a mitochondrial form of the antioxidant enzyme, superoxide dismutase (mnSOD, where the letter "mn" refer to manganese). And in addition to its carotenoids and its manganese content, corn also provides us with the antioxidant flavonoid quercetin, and a variety of antioxidant organic acids. Included among these antioxidant organic acids are ferulic acid, diferulic acid, and coumaric acid. In blue and purple corn varieties, anthocyanin antioxidants are added to the rich mix of antioxidant nutrients present in corn. These anthocyanins include cyaniding 3 glucosides, pelargonidins, and peonidins. The anthocyanins in blue and purple corn have been used in animal studies to lower oxidative stress and reduce the presence of reactive oxygen species (ROS). And in lab studies, when cells have been incubated together with carotenoids extracts from corn, the antioxidant pathway genes in these cells show increased activity. (84 different genes in antioxidant pathways were analyzed in one study, and 28/84 of those genes were found to have increased activity technically called gene expression after the combination of cells with corn carotenoid extracts. In short, there is a research track record of antioxidant related benefits from corn's unique variety of antioxidant nutrients.

 

 

Other Health Benefits from Corn

Research on overall health benefits from fresh corn is complicated for several reasons. First, a good bit of the current research on corn is carried out on processed corn components rather than whole fresh corn. For example, one popular new corn supplement called "soluble corn fiber" has been the topic of numerous research studies on digestive function, cardiovascular function, and anti cancer potential for certain types of cancer (for example, colorectal cancer). However, soluble corn fiber (SCF) is a manufactured product made from hydrolysis of corn starch in a processing facility. The corn starch is processed in such a way as to produce resistant maltodextrins that contain glucose oligosaccharides together with glycosidic linkages. Intake of SCF and other supplement type products made from corn is simply not comparable to the enjoyment of fresh corn on the cob. Second corn is often studied in combination with other starchy grains, including grains like wheat. When results from these studies are obtained, it can be difficult to sort out the exact role played by corn. Finally, we've seen a good number of studies on corn extracts fed to rats and mice. While these studies can be very helpful in expanding our understanding of potential corn benefits, we do use animal studies on our website to confirm or rule out human health benefits. We like to see large scale studies with real people enjoying everyday meals before linking foods to likely health benefits.

Despite the limitations described above, several areas of corn research show promising trends for health benefits. One of the liveliest areas of research involves corn and digestive function. Corn has long been known for its fiber content. An overwhelming amount of fiber in corn is insoluble. When people notice that corn hulls may not seem to be fully digesting, what they are noticing is the plentiful amount of cellulose and hemicellulose fiber that is present in the corn hulls. However, many parts of corn kernels can be fully digested if not by human enzymes then by enzymes present in bacteria that live in the human digestive tract. While the exact steps in human digestion of whole corn are not yet clear, different components in the corn fibers for example, arabinoxylans in the hemicellulose category of fibers may be broken down by bacteria in our digestive tract and converted into health-supportive substances. Future research should help to clarify exactly how this process works. It should also lead to confirmation of unique digestive health benefits from enjoyment of corn.

Intake of soluble fiber has long been linked to cardiovascular benefits, including helpful changes in blood fat levels and composition. Studies on mice have shown corn extracts to help lower both total cholesterol and LDL cholesterol.

Studies on SCF (the soluble corn fiber product described earlier in this section) have shown the ability of this corn derivative to impact bacterial composition in the lower intestine and the activity of bacterial enzymes. This impact, in turn, has been linked to better calcium absorption. Key bacteria involved in these studies include Bifidobacteria, Bacteriodes, Dorea, Ruminococcus, and Dialister. Other studies on SCF seem to confirm the connection between intake of these altered corn fibers and digestive function. What we hope to see in the near future is studies not on processed corn starch products like SCF, but on sweet corn that is being enjoyed in a freshly steamed form in an everyday meal plan.

 

 

 

Description

In terms of planted acreage, corn is the largest field crop in the India, with more acres planted for corn than for soybeans or for wheat. However, less than 10% of this corn acreage is used to produce fresh corn for consumers. The vast majority of cultivated corn is used to produce feed for livestock, ethanol fuel, and a variety of refined components include high fructose corn syrup (HFCS), corn oil, and corn starch. For improved yield in these specialty areas, about 90% of all corn grown in the Southern States comes from genetically engineered (GE) varieties. Even though many varieties of fresh sweet corn have not been genetically engineered, one way to avoid GE corn is to purchase certified organic varieties since GE foods are not allowed within Health organic food regulations.

Corn belongs to the grass family of plants (more and more widely being referred to as the Poaceae family, although previously being known as the Gramineae family). Included in this grass family are all familiar cereal grains, including wheat, oats, barley, rye, rice and millet. However, corn is not classified as a gluten grain and within the grass family, it sits a good distance from wheat in terms of its evolution. (Wheat belongs to the Pooideae subfamily of grasses and to the Triticaceae tribe, while corn belongs to the Panicoideae subfamily and the Paniceae tribe.)

All commonly enjoyed varieties of fresh corn belong to the Zea mays genus / species of plant. In this scientific name you can recognize a form of the word "maize" (from the Spanish word "maiz" and the Arawak / Taino word "mahiz"). Cultivation of this remarkable food began in Mesoamerica over 8,000 years ago, and in many Central Asia, South India, and Native Indian cultures, it held and continues to hold a special place not only in everyday eating but also in a spiritual sense.

Corn plants within the Zea mays genus/species include hundreds of different varieties (also called "subspecies"). When corn is planted as a field crop, these varieties typically match up with the ultimate use of the crop. For example, the vast majority of dent corn varieties are used for animal feed flour corn varieties are used to produce dried corn flour; and sweet corn varieties are type that we typically find in the supermarket and enjoy in our meals. Sweet corn varieties commonly include both yellow and white ears of corn. While blue and purple ears are most often used to produce dried and ground corn meal or corn flour, it is also possible to find blue and purple varieties of sweet corn that can be enjoyed in fresh ear form.

Some popular varieties of corn in the Middle Asia. include Silver Queen, Silver King, Jubilee, Ambrosia, Mirai, Legend, and Revelation. White, yellow, and bicolor varieties can all be found within this group.

We get asked by readers about the characteristics of what is most often called "baby corn." This term does not refer to any specific variety of corn, to but many different varieties which can be harvested very early during growth (before the silks have formed and before fertilization has occurred). While the Western Countries and India is a major marketplace for baby corn, very High is produced in the India and is instead Exported from countries in Western Country’s and especially from Thailand. For these reasons, most of the baby corn found in Indian supermarkets.

 

 

 

History

As mentioned in our Description section, corn is a food originally cultivated in Mesoamerica over 8,000 years ago. Its long history of use as a food has been the topic of many books and research studies. Among all countries in the world, the India is currently the largest single producer of corn, with over 94 million acres of corn planted each year. However, the vast majority of this acreage is not used to grown sweet corn for fresh use. (Less than 10% of total corn crops are used for that purpose.) Animal feed, ethanol fuel production, and commercial food supply ingredients like high fructose corn syrup, corn starch, and corn oil drive the vast amount of corn production in the India In addition, about 20-30% of all India. corn crops are exported each year. If limited to an analysis of sweet corn only (the kind that is used for fresh corn on the cob), the states of Andra prades, Karnataka, Kerala, Madhya Pradesh, U.P, Rajastan, Jammu and Kashmir, Bihar, Himachal Pradesh, and Punjab were the top 1 sweet corn-producing states in the India in 2016.

As mentioned earlier, the India produces more corn than any other country when all types and reasons for corn production are taken into account. China, Brazil, Mexico, Argentina, U.S are also top corn-producing countries when all types of corn production are considered.

 

 

 

How to Select and Store

From a food safety standpoint, we recommend selection of corn that has not been exposed to any substantial amount of heat. Exposure to excess heat can increase the susceptibility of fresh corn to microbial contamination. If you are shopping in the grocery store, your safest bet is corn that is being displayed in a refrigerated produce bin. Next safest would be corn that, while not refrigerated, is still being displayed in a cool store location, out of direct sun and not near a heat source. These same recommendations apply for corn in a farmer's market or roadside stand. Here display of corn in the shade and out of direct sunlight can be important from a food safety standpoint.

Look for corn whose husks are fresh and green and not dried out. They should envelope the ear and not fit too loosely around it. To examine the kernels, gently pull back on part of the husk. The kernels should be plump and tightly arranged in rows.

We encourage the purchase of certified organically grown foods, and corn is no exception. Repeated research studies on organic foods as a group show that your likelihood of exposure to contaminants such as pesticides and heavy metals can be greatly reduced through the purchased of certified organic foods, including corn. In many cases, you may be able to find a local organic grower who sells corn but has not applied for formal organic certification either through the Indian Department of Agriculture (IDA) or through a state agency. (Examples of states offering state-certified organic.) However, if you are shopping in a large supermarket, your most reliable source of organically grown corn is very likely to be corn that displays the IDA or ISSF organic logo.

Traditionally to enjoy the optimal sweetness of fresh corn, it was recommended to eat it the day of purchase. New varieties allow you 3 days to still enjoy its full flavor. Store corn in an air tight container or tightly wrapped plastic bag in the refrigerator if you do not intend to cook it on the day of purchase. Do not remove its husk since this will protect its flavor.

Fresh corn freezes well if placed in heavy duty freezer bags. To prepare whole ears for freezing, blanch them first for five minutes depending. If you just want to freeze the kernels, first blanch the ears and then cut the kernels off the cob at about three quarters of their depths. Frozen whole corn on the cob will keep for up to one year, while the kernels can be frozen for two to three months.

 

 

 

Individual Concerns

(Since much of the corn produced today is genetically engineered (GE), be sure to purchase organically grown corn to avoid GE corn.)

Genetically Modified Corn

Conventionally grown sweet corn may be produced from genetically modified seeds. For helpful information about genetically modified foods including our Recommendations.

Other Controversies

Some animal foods and some plants foods have been the subject of ongoing controversy that extends well beyond the scope of food, nutrient richness, and personal health. This controversy often involves environmental issues, or issues related to the natural lifestyle of animals or to the native habitat for plants. Corn has been a topic of ongoing controversy in this regard.

 

 

 

Nutritional Profile

Antioxidant phytonutrients are provided by all varieties of corn. The exact phytonutrient combination, however, depends on the variety itself. Yellow corn is richer in carotenoids, especially lutein and zeaxanthin. Blue corn has unique concentrations of anthocyanins. Purple corn provides unusual amounts of the hydroxybenzoic acid called protocatechuic acid. Ferulic acid, beta-carotene, vanillic acid, coumaric acid, caffeic acid and syringic acid are other key phytonutrients provided by corn. Corn is a good source of pantothenic acid, phosphorus, niacin, dietary fiber, manganese and vitamin B6

Highlights

According to Indian Department of Agriculture data for 2016, approximately 41.5 million bushels of corn were produced in 2015, with 39% being used for livestock feed, 30% for ethanol, 12.5% for various exports, 8% for distiller's dried grain, about 5-6% for high fructose corn syrup and other sweeteners, and 3% for starches and cereals. When you add all of these percentages together, what you are left with is a very small amount of total corn production actually being used to provide us with fresh sweet corn. For many of the non sweet corn uses described above, genetically modified seeds have become a staple in the industry. However, within the very small segment of corn production that involves fresh sweet corn, all of the analyses that we have read suggest that most sweet corn production within the India involves non GMO seed. For example, one extremely small 2013 study showed 3% of sweet corn samples to be GMO. These circumstances make us confident about the general availability of non GMO fresh sweet corn in Indian supermarkets. However, at the same time, we realize that seed choices can change from year to year, and in addition, that fresh sweet corn is routinely Exported into the India from other countries. So there are a good number of shifting factors here. If you want to be certain that the fresh sweet corn that you purchase is non GMO, we recommend that you take one of the following steps: (1) purchase certified organic sweet corn, since GE crops are prohibited in organic regulations; (2) look for non GMO verification in the corn display section or on the product label; or (3) purchase corn from a local grower with whom you can talk and confirm the use of non GMO seeds.

What's New and Beneficial about Corn

 

• Quick Steaming is our cooking method of choice for corn. We selected this method not only because it results in delicious taste and texture, but also because research studies repeatedly show great nutrient benefits from short-term steaming. So we are excited to let you know about a recent study that extends these cooking principles to corn and its two key carotenoids: lutein and zeaxanthin. In this study, steaming was compared with two other methods of cooking: boiling and pressure cooking. Results of the study showed that the greatest retention of lutein and zeaxanthin as well as the greatest retention of total phenols and greatest antioxidant capacity was found in the steamed corn. Both cut corn and whole ear corn were analyzed in this study, making these encouraging results about steaming applicable to corn on the cut corn.

• While we never rely on animal or lab studies to make recommendations about food choices for your meal plan, we found the results of a recent lab study on corn to be especially interesting. In this lab study, the antioxidant activities of corn were analyzed on a genetic level, and all three major components of corn kernels were examined: the bran, the germ, and the large endosperm portion. The activity level of 84 different genes was measured in the study, and all 84 were genes related to antioxidant pathways. Activity in 28/84 of these antioxidant pathway genes was increased after incubation of cells with carotenoid extracts from corn. Interestingly, the two predominant carotenoids in corn lutein and zeaxanthin were found to be present in all three basic corn components: the bran, the germ, and the endosperm. So the authors went on to conclude that all three corn components might be helpful in lessening oxidative stress. However, we see no reason not to take advantage of the maximal antioxidant potential of corn and consume all three corn components at once germ, bran, and endosperm. A perfect example of accomplishing this task would be enjoyment of freshly steamed corn on the cob, since this whole kernel form of corn provides you will all three corn components.

• Corn is somewhat well-known for its high ratio of insoluble to soluble fiber. For example, when people notice that corn hulls may not seem to fully digest after eating, what they are noticing is that the hulls contain plentiful amounts of insoluble fibers including celluloses and hemicelluloses. Of course, many parts of the corn kernels do fully digest, and researchers are continuing to expand our understanding about corn and its digestion and especially its fibers. While the exact steps in human digestion of whole corn are not yet clear, different components in the corn fibers for example, arabinoxylans in the hemicellulose category of fibers may be broken down by bacteria in our digestive tract and converted into health-supportive substances. The bottom line here is simple  just because corn's fiber content falls overwhelmingly into the insoluble category does not mean that corn fiber fails to provide us with health benefits. Future research should help clarify exactly how corn fibers interact with bacteria in our digestive tract when we enjoy freshly steamed corn in our meals.

• Some of the drugs used to treat cancer have unwanted consequence for healthy cells in our body. One of these unwanted consequences is increased oxidative stress and overproduction of reactive oxygen molecules (often referred to as reactive oxygen species, or ROS). A recent study has used purple corn extract to effectively lower this unwanted side effect in mice who had been injected with an ROS increasing cancer drug. This result should not be surprising, since purple and blue varieties of corn are well known for their unique anthocyanin content. Among the anthocyanins present in blue and purple corn, the most predominant are cyaniding 3 glucosides. But other anthocyanins including pelargonidins and peonidins are fairly concentrated in these colorful corn varieties. One of the reasons we include this topic in our list is the increasing popularity of these foods with some consumers, including blue / purple corn chips, blue/purple corn tortillas, and similar foods. Of course, all of these foods are made from blue / purple corn that has been dried and ground, rather than from fresh corn. If you decide to include these forms of blue / purple corn in your meal plan, we recommend that you check the fiber content on the package before making your selection since there is no guarantee that the dried and ground corn flour or corn meal that was used to make these products came exclusively from whole kernels. Typically, whenever you see a total fiber count of only 1 gram per serving, you will not be getting 100% whole grain purple / blue corn in the product and are likely to be losing potential health benefits. We'd also note here that it is possible to find blue and purple varieties of      sweet corn that can be enjoyed in fresh form. However, these blue and purple varieties still remain uncommon in the supermarket and are much less readily available than yellow and white fresh corn.

 

 

Our Recommendations

Corn is widely and correctly classified as a grain. It's a member of the grass family along with other familiar grains like wheat and oats and rice. We do not feature recipes that rely on corn in its dried and ground form, for example, corn meal or corn flour. While dried and ground whole corn can make a healthy addition to many meal plans, we always feature fresh foods on our website as long as we find them to be widely available and practical to prepare. Since corn meets both of these criteria, we feature it as a fresh food. And within this category of fresh foods, we believe that most people tend to think about fresh corn like corn on the cob as a vegetable. So we've placed our recommendations to you about corn within the vegetable category.

When consumed in fresh form, yellow varieties of corn are by far the most popular in the India For this reason, As a minimum daily goal for vegetable intake from the yellow / orange group, we recommend 1/2 cup per day. A more optimal intake level would be one cup per day. Of course, alongside of yellow corn, vegetables like sweet potato, yellow summer squash, and carrots can contribute to your daily yellow-orange total.