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Nutrients are life-sustaining chemical substances that nourish and promote the growth of the human body. No one food contains all of the nutrients necessary for the body to function effectively; therefore, a balanced diet that incorporates appropriate amounts of the six essential nutrients, as well as recommended servings from the food groups, is necessary. Individuals should choose foods of high nutrient density rather than food with empty calories. Foods that are nutrient dense are foods that are excellent sources of essential nutrients with few, if any, empty calories. Empty calorie foods refer to foods that provide calories or energy, but have little or no nutritive value. The six essential nutrients are: - Protein - Carbohydrates - Vitamins - Minerals - Fats - Water DRI stands for Dietary Reference Intake; this is a collection of four reference values related to intakes of nutrients. The four values include: - Estimated Average Requirements (EAR) - Recommended Dietary Allowances (RDA) - Adequate Intakes (AI) - Tolerable Upper Intake Levels (UL) You may remember the acronym RDA as the only standard value written about on food labels and nutrition charts. The RDA system was updated in the mid-1990s, with the introduction of the DRI system. All of the DRI terms relate to daily nutrient intake. Different nutrients will have different values associated, based on the current research available. UL limits are established to prevent toxicity (overdose) issues. The Tolerable Upper Intake Level is the highest amount of a nutrient you can likely intake on a daily basis without causing adverse health effects. The AI limit is established when there is insufficient data to set an RDA limit. The RDA and EAR limits are similar, differing only in the level of the population “covered” by the suggested dose. The RDA is the daily intake of a nutrient sufficient to meet the requirements of ~98% of healthy Americans (per age and sex). The EAR is the intake level required to meet the needs of ~50% of healthy Americans (per age and sex). Why are there so many terms? The Food and Nutrition Board is a group of expert who meet periodically to review nutrition research and discuss the current nutrient standards. This board has been meeting since 1941, and was responsible for the development of the RDA and DRIs. In recent times, some scientists became concerned as to what level the standard should be set for nutrients. If the suggested daily “dose” is too high, then some people may actually be consuming too much of a given nutrient. If it is too low, then part of the population may be encouraged to court deficiency. At this point, the four levels (the DRIs) are issued for all major micronutrients whenever there is sufficient research to support a particular level or limit. Protein Without protein, the human body would not be able to survive. Protein performs three very important functions. The body uses protein for: - Growth and repair of new and damaged tissues. - Regulating all body functions, and transporting other nutrients and oxygen throughout the body. - Supplying energy when adequate amounts are not supplied by carbohydrates and fat. Protein is comprised of compounds called amino acids. Amino acids are often referred to as the building blocks of protein. There are 22 different amino acids. Thirteen of these amino acids can be manufactured by the body, and the remaining nine amino acids must by supplied by the diet. These nine amino acids that must be eaten are often called essential amino acids because it is essential that they be furnished by the diet. People in less developed countries suffer from many diet-related diseases and other health problems because of the shortage of protein foods. Protein foods that supply all nine of the essential amino acids are called complete proteins. Foods that supply only some of the nine essential amino acids are called incomplete proteins. Two incomplete protein foods can be eaten together to form a complete protein source. Most generally, animal proteins are complete protein sources and plant proteins are incomplete protein sources. However, animal proteins also provide more fat and calories than plant proteins. It is a wise dietary practice to consume combinations of plant proteins to fulfill some of the body’s need for complete proteins. Some examples of combining incomplete proteins to form complete proteins are: - Legumes (dried beans, lentils, split peas) and rice - Pinto beans and corn tortillas - Peanut butter sandwich (peanuts are a legume). It is recommended for adults that 10-35% of calories come from protein; for teenagers and children over the age of four, it is recommended that 10-30% of calories come from protein. Additional protein is needed by women during times of pregnancy and lactation. People should consult the Dietary Reference Intake charts for their gender and age group for specific protein requirements. Carbohydrates Carbohydrates are nutrients that supply energy for body functions. The other energy sources are proteins and fats. Forty-five to sixty-five percent of calories should come from complex carbohydrates. Carbohydrates are broken down in the body into sugars, starches, and fiber. The sugars are known as simple carbohydrates, and the starches and fiber are known as complex carbohydrates. (Alcohol is also considered a class of carbohydrates, but will not be discussed in this section.) Carbohydrates perform three important functions in the body: - Supply energy - Supply fiber - Aid in the digestion of fats Monosaccharides are the simplest form of carbohydrates. The monosaccharides are glucose, galactose, and fructose. Sugars and starches are broken down in the body into the simple sugar glucose. Glucose is the major sugar found in the bloodstream and supplies energy for the body. Some body tissues, such as red blood cells and parts of the brain, are able to get energy only from glucose. Fructose is found in honey and fruits and is known as the sweetest of the sugars. Galactose is not found in nature, but it is one of the two monosaccharides available after the breakdown of lactose (milk sugar). Disaccharides are formed when two monosaccharides are joined together. They are broken down into their monosaccharide components during digestion. The disaccharides are sucrose, maltose, and lactose. Sucrose (glucose + fructose) is found in white refined table sugar, brown sugar, confectioner’s sugar, cane sugar, beet sugar, molasses, and maple syrup. Maltose (glucose + glucose) is malt sugar, which is found in sprouting cereal grains. Lactose (glucose + galactose) is milk sugar and is found only in milk. Polysaccharides are the complex carbohydrates. They include starch, cellulose, and glycogen. Starch is the most abundant polysaccharide. Starch can be found in roots, legumes, grains, and vegetables, but must be broken down into glucose by the body before it can be utilized. Cellulose is t he fibrous material found in plants and is commonly referred to as fiber or roughage. Cellulose cannot be digested by humans. Sources of cellulose include vegetables, fruits, and whole grain cereals. Glycogen, also known as animal starch, is the storage form of carbohydrates found in the liver and muscles. Glycogen in the liver is easily broken down into blood glucose, and muscle glycogen supplies glucose for muscle use. This is especially important during periods of intense exercise. Vitamins Vitamins are organic compounds necessary for normal growth, maintenance of health, and reproduction. Vitamins help the body convert carbohydrates and fat into energy and assist in the formation of bones and tissues. Vitamins are essential for maintaining good health as the body cannot survive without them. Vitamins are either fat-soluble or water-soluble. Fat-soluble vitamins cannot be dissolved in water, so they are stored in the body fat until they are transported to the cells by the blood. Because these vitamins can accumulate in the body, it is especially important for a person’s regular daily nutrient intake of fat-soluble vitamins not to exceed the Tolerable Upper Intake Levels (UL). Water-soluble vitamins are easily dissolved by water and therefore are not significantly stored by the body. Water-soluble vitamins must be replenished frequently. Vitamins A, D, E, and K are the fat-soluble vitamins. The functions and sources of each of the fat-soluble vitamins include: - Vitamin A – sometimes called retinol – is responsible for night and color vision, growth of bones and teeth, immune function, and embryonic development. Sources of Vitamin A include dark green and dark yellow vegetables, egg yolks, whole milk, liver, butter, and fish oils. - Vitamin D – sometimes calciferol – is important for the normal growth and development of bones and teeth, and aids in the absorption and utilization of calcium and phosphorus. Sources include egg yolks, liver, fish liver oils, and fortified milk. With exposure to the sun, the body is able to make its own Vitamin D. However, excessive sun exposure can increase the risk of certain types of skin cancer. - Vitamin E – sometimes called alpha-tocopherol – protects cells from oxidation. Oxidation is a chemical change involving interaction with free radicals (highly reactive charged particles) that can lead to damage of the tissues. Vitamin E is most effective in protecting the red blood cells in the lungs and the cells of the lung tissue because of their continuous exposure to oxygen. Sources of Vitamin E include vegetable oils, wheat germ, whole-grain bread and cereal products, nuts, liver, fish oils, and green leafy vegetables (spinach, kale, etc.). - Vitamin K is necessary for protein synthesis involved in blood clotting and other body processes. Sources include green vegetables (leafy vegetables, broccoli, Brussels sprouts), plant oils, cheese, margarine. The water-soluble vitamins include the eight B vitamins and vitamin C. The functions and sources of each include: - Thiamin – also known as vitamin B1, aneurine - helps the body break down carbohydrates and release energy from food. It is necessary for cell respiration, promotion of normal appetite and digestion, and maintenance of a healthy nervous system. Sources include enriched or fortified whole grain products, peas, and pork. Thiamin is heat sensitive and is easily leached into the cooking liquid. - Riboflavin - also known as vitamin B2 – is important for the breakdown of foods and the release of energy (oxidation-reduction reactions). Sources include fortified cereals and bread products, eggs, organ meats, and milk. Riboflavin is easily destroyed by exposure to light, especially sunlight. - Niacin – also known as nicotinic acid or vitamin B3 – helps cells convert food into energy, and is important in the nervous and digestive systems. Sources include lean meats, poultry, fish, nuts, enriched or fortified bread products and cereals, eggs, and dairy products. - Folate – also known as folic acid or folacin – is necessary for the body to produce normal red blood cells and for the biochemical reactions of cells in the production of energy. It is key in preventing developmental defects (neural tube defects such as spina bifida) during pregnancy. Sources include dark leafy green vegetables, enriched grain and cereal products, liver, lentils. - Biotin is essential in the metabolism of fats and amino acids. Liver and eggs are important sources of biotin, although it is also found in baker’s yeast, and in some fruits, cheeses, and meats. - Pantothenic acid aids in the metabolism of fats and the formation of cholesterol and hormones. Best sources include eggs, milk, whole-grain products, sweet potatoes, and lean beef. - Pyridoxine – also known as vitamin B6 – is important in maintaining nervous tissue function and muscle cells, DNA and RNA production, and the metabolism of carbohydrates, proteins, and fats. Sources include poultry, fish, whole grain cereals, and lentils. - Cobalamin – also known as Vitamin B12 – is important in red blood cell formation, nucleic acid metabolism and the prevention of pernicious anemia. Vitamin B12 is naturally found in animal products (meat, fish, poultry, milk), but fortified cereals are also a fine source. - Ascorbic acid – also known as Vitamin C – aids in the formation of collagen, the healing of wounds, and the absorption of iron and calcium. Vitamin C is also an important antioxidant. Sources include citrus fruits, parsley, broccoli, green and red peppers, and tomatoes. Research continues into the role vitamins and minerals play in preventing chronic disease and in maintaining health and wellness. The Dietary Reference Intakes serve as guidelines for determining the amounts of nutrients that a person needs each day. For additional information on DRIs – including current reference guidelines, please visit: http://www.nal.usda.gov/fnic/etext/000105.html. Minerals Minerals are necessary for building bones, tissues, and other compounds, as well as for regulating body processes. Minerals found in large amounts in the body or those with high daily intake requirements (at least 100 milligrams per day) are called macrominerals. Macrominerals include calcium, phosphorus, magnesium, sodium, potassium, and chloride. Macromineral Function Sources Calcium Needed for bone rigidity, blood clotting, muscle Milk and dairy products, softcontraction, normal nerve function boned fish, calcium-fortified Just because an individual eats food containing orange juice, leafy green calcium does not mean that the body absorbs the vegetables, and broccoli. calcium. Factors that increase calcium absorption include: an overall balanced diet ; intake of vitamins C and D; intake of certain amino acids Factors that decrease calcium absorption include: vitamin D deficiency; fat malabsorption; eating large amounts of fiber; lack of exercise; stress; lactose deficiency or lactose intolerance Phosphorus Helps build strong bones and teeth, important in cell Dairy products, meat, eggs, membranes, a significant factor in energy production fish, lentils, almonds and storage, and in maintaining pH levels in the body Magnesium Metabolism of carbohydrates and fats; synthesis of Green leafy vegetables, nuts, DNA, RNA, enzymes; structure of bone, cell whole grains, meat, fish, membranes; movement of potassium and calcium dairy products Sodium, These three work together to: Regulate the flow of Sodium and chloride are Chloride, fluids in the body, help regulate nervous system, found together in table salt, Potassium regulate muscle function (including the heart), regulate and in foods with added salt nutrient absorption in the cells (processed meats, butter, etc.). Potassium is found in meat, milk, bananas, leafy green vegetables, citrus fruits. Minerals found in small amounts in the body are called trace elements or microminerals. Trace elements that appear to be needed by the body include: arsenic, boron, chromium, copper, fluoride, iodine, iron, manganese, molybdenum, nickel, selenium, silicon, vanadium, and zinc. We know that they are needed because of the results of animals studies; when the elements are completely removed from the diets of laboratory animals, the animals begin to show ill effects. However, some of these elements are needed in such small amounts, that scientists are still trying to determine their exact functions within the body. Please see below for more information about some of the best researched microminerals. Macromineral Functions Chromium Maintains normal glucose uptake into cells; helps insulin bind to cells Sources Meat, poultry, fish, some cereals Copper Necessary for the formation of hemoglobin Organ meats, bran products, cocoa products Fluoride Prevents dental caries (decay); stimulates bone formation Iodine Iron Fluoridated drinking water, dental products; tea, marine fish Required by the thyroid gland for hormone creation Iodized salt; marine fish, seaweed Component of hemoglobin (oxygen-carrying protein Meat, poultry (heme sources; in the blood) more readily absorbed); leafy green vegetables, fortified bread and grain products (non-heme) Manganese Involved in bone formation, metabolism of carbohydrates, protein Molybdenum Helps enzymes break down amino acids Selenium Zinc Nuts, legumes, whole grains, tea Legumes, grain products, nuts Defends against oxidation; regulates thyroid Seafood, organ meats, grains hormones and plants grown in seleniumrich soil Involved in protein and DNA synthesis; metabolism; Fortified cereal, red meat, part of many enzymes oysters, herring For additional information on DRIs – including current reference guidelines, please visit: http://www.nal.usda.gov/fnic/etext/000105.html. Fats Fats are semisolid, energy-filled organic compounds found in animal and plant tissues. The term lipid is often used interchangeably with the term fat, but it is also used to describe a larger group that includes fats (solids, semisolids at room temperature), oils (liquids at room temperature), and fat-related substances. Lipids, in their simplest forms, are called fatty acids. The major form of fat in the body and in foods is known as triglycerides. Triglycerides are chemical compounds that contain carbon, hydrogen, and oxygen. Fats or lipids are important sources of energy needed by the body. Children ages 4 to 18 years should receive between 25 and 35% of their calories from fat; adults should receive between 20 and 35% of their calories from fat. Functions of fat in the body include: - Provide energy - Transport and absorb fat-soluble vitamins - Cushion vital organs in the body - Important part of the membranes of cells - Supply essential fatty acids - Add flavor to foods - Satisfy the appetite by delaying hunger - Insulate the body - Serve as protection for nerves and blood vessels Fats are classified as saturated, monounsaturated, or polyunsaturated. The more saturated the fat, the more solid it is at room temperature. - Saturated fats have the most hydrogen. Saturated fats are found in animal meats, butter, chocolate, egg yolks, lard, coconut oil, and many other foods. The Dietary Guidelines for Americans suggest that 10% or fewer of calories should come from saturated fat. - Monounsaturated fats have less hydrogen than saturated fats. Example sources include canola, olive, and sunflower oils, and nuts. - Polyunsaturated fats have even less hydrogen than monounsaturated fats. Polyunsaturated fats can be found in soybean, corn, and safflower oil, walnuts, and flaxseeds. Trans fats are a special category of fats. Trans fats occur naturally in small amounts in meat and dairy foods, but the majority of trans fats in the American diet come from hydrogenation. When liquid oils are hydrogenated, treated with hydrogen to become semi-solid or solid fats, trans fats can be created. Trans fats are most commonly found in vegetable shortening, hard (stick) margarine, and manufactured foods such as crackers, cookies, and baked goods. Consumption of trans fats should be limited, as they have been linked to an increased risk in coronary heart disease. Water Water is necessary in the body for many reasons. It acts as a solvent for nutrients. It is an important medium for chemical reactions within the body. Water also transports nutrients to the cells and rids the body of waste products. It lubricates the joints, facilitates food passage, and regulates body temperature through conduction of heat, perspiration, and excretion. The Dietary Reference Intake levels for water vary by age, gender, and health status (pregnant or lactating women need more water). Sources of water include beverages, soups, and high-moisture foods like fruits and vegetables.