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Zinc is an important trace mineral. This element is second only to iron in its concentration in the body.

Zinc is a mineral that is essential for a healthy immune system, production of certain hormones, wound healing, bone formation, and clear skin. It is required in very small amounts, and is thus known as a trace mineral. Despite the low requirement, zinc is found in nearly every cell of the body and is a key to the proper function of more than 300 enzymes, including superoxide dismutase. Normal growth and development cannot occur without it.

Zinc is a mineral that is essential for a healthy immune system , production of certain hormones, wound healing, bone formation, and clear skin. It is required in very small amounts, and is thus known as a trace mineral. Despite the low requirement, zinc is found in nearly every cell of the body and is a key to the proper function of over 300 enzymes, including superoxide dismutase. Normal growth and development cannot occur without it.

Zinc formulations have been used since Ancient Egyptian times to enhance wound healing, although the usefulness of this approach is only partially confirmed by clinical data of today. Zinc is necessary for the functioning of over 300 different enzymes and plays a vital role in an enormous number of biological processes. Zinc is a cofactor for the antioxidant enzyme superoxide dismutase (SOD) and is in a number of enzymatic reactions involved in carbohydrate and protein metabolism. Its immunologic activities include regulation of T lymphocytes, CD4, natural killer cells, and interleukin II. In addition, zinc has been claimed to possess antiviral activity. It has been shown to play a role in wound healing, especially following burns or surgical incisions. Zinc is necessary for the maturation of sperm and normal fetal development. It is involved in sensory perception (taste, smell, and vision) and controls the release of stored vitamin A from the liver. Within the endocrine system, zinc has been shown to regulate insulin activity and promote the conversion thyroid hormones thyroxine to triiodothyronine. Based on available scientific evidence, zinc may be efficacious in the treatment of (childhood) malnutrition, acne vulgaris, peptic ulcers, leg ulcers, infertility, Wilson's disease, herpes, and taste or smell disorders. Zinc has also gained popularity for its use in prevention of the common cold. The role for zinc is controversial in some cases, as the results of published studies provide either contradictory information, and/or the methodological quality of the studies do not allow for a confident conclusion regarding the role of zinc in those diseases.

Iron is an essential mineral and an important component of proteins involved in oxygen transport and metabolism. Iron is also an essential cofactor in the synthesis of neurotransmitters such as dopamine, norepinephrine, and serotonin. About 15 percent of the body's iron is stored for future needs and mobilized when dietary intake is inadequate. The body usually maintains normal iron status by controlling the amount of iron absorbed from food. There are two forms of dietary iron: heme and non-heme. Sources of heme iron include meat fish and poultry. Sources of non-heme iron, which is not absorbed as well as heme iron, include beans, lentils, flours, cereals, and grain products. Other sources of iron include dried fruit, peas, asparagus, leafy greens, strawberries, and nuts. The World Health Organization considers iron deficiency to be the largest international nutritional disorder. Although much of the ethnic disparity in iron deficiency anemia remains unexplained, socioeconomic factors may be involved. Iron deficiency can be determined by measurement of iron levels within the body, mainly serum ferritin levels, which can also help distinguish between iron deficiency anemia and anemia associated with chronic disease. Herbal preparations such as yellow dock root may be used in iron deficiency, although scientific evidence may be lacking.

Iron is a mineral that the human body uses to produce the red blood cells (hemoglobin) that carry oxygen throughout the body. It is also stored in myoglobin, an oxygen-carrying protein in the muscles that fuels cell growth.

Iron is a vital component of heme, the component of hemoglobin that transports oxygen in the blood. Iron deficiency is the world's most common cause of anemia (blood with low hemoglobin and red blood cell components). While some plants have modest amounts of iron (e.g., spinach), meat (red or white) has many times more iron than plants. Meat iron is also absorbed much more efficiently than plant iron. In addition to oxygen transport, iron and heme are key to normal brain development. Iron deficiency during the first six months of life can irreversibly impair cognitive development. K ENNETH R. B RIDGES ( SEE ALSO : Hematocrit ; Hemoglobin )

Iron is a mineral that the human body uses to produce the red blood cells (hemoglobin) that carry oxygen throughout the body. It is also stored in myoglobin, an oxygen-carrying protein in the muscles that fuels cell growth.

Melatonin is a hormone produced in the brain by the pineal gland, from the amino acid tryptophan. The synthesis and release of melatonin are stimulated by darkness and suppressed by light, suggesting the involvement of melatonin in circadian rhythm and regulation of diverse body functions. Levels of melatonin in the blood are highest prior to bedtime. Synthetic melatonin supplements have been used for a variety of medical conditions, most notably for disorders related to sleep. Melatonin possesses antioxidant activity, and many of its proposed therapeutic or preventive uses are based on this property. New drugs that block the effects of melatonin are in development, such as BMS-214778 or luzindole, and may have uses in various disorders.

Melatonin is a hormone produced naturally in the pineal gland at the base of the brain. It is important in regulating sleep, and may play a role in maintaining circadian rhythm, the body's natural time clock. The hypothalamus keeps track of the amount of sunlight that is taken in by the eye. The less sunlight, the more melatonin that is released by the pineal gland, thereby enhancing and regulating sleep. Melatonin can also be taken in an over-the-counter supplement mainly sold in health food stores and pharmacies.

Flaxseed and its derivative flaxseed oil/linseed oil are rich sources of the essential fatty acid alpha-linolenic acid, which is a biologic precursor to omega-3 fatty acids such as eicosapentaenoic acid. Although omega-3 fatty acids have been associated with improved cardiovascular outcomes, evidence from human trials is mixed regarding the efficacy of flaxseed products for coronary artery disease or hyperlipidemia. The lignan constituents of flaxseed (not flaxseed oil) possesses in vitro anti-oxidant and possible estrogen receptor agonist/antagonist properties, prompting theories of efficacy for the treatment of breast cancer. However, there is not sufficient human evidence to make a recommendation. As a source of fiber mucilage, oral flaxseed (not flaxseed oil) may possess laxative properties, although only one human trial has been conducted for this indication. In large doses, or when taken with inadequate water, flaxseed may precipitate bowel obstruction via a mass effect. The effects of flaxseed on blood glucose levels are not clear, although hyperglycemic effects have been reported in one case series. Flaxseed oil contains only the alpha-linolenic acid component of flaxseed, and not the fiber or lignan components. Therefore, flaxseed oil may share the purported lipid-lowering properties of flaxseed, but not the proposed laxative or anti-cancer abilities. Preliminary evidence suggests that alpha-linolenic acid may be associated with an increased risk of prostate cancer.

Flaxseed (also called linseed) comes from the flax plant ( Linum usitatissimum ), which belongs to the Linaceae plant family. The flax plant is a small, single-stemmed annual that grows to about 2 ft (0.6 m) tall and has grayish green leaves and sky-blue flowers. Historically, flax has been cultivated for thousands of years. Linen made from flax has been found in the tombs of Egyptian pharaohs and is referred to in the Bible and in Homer's Odyssey . The Roman naturalist Pliny wrote about the laxative and therapeutic powers of flax in the first century A.D. , and many authorities believe it has been used as a folk remedy since ancient times. Flax is believed to be native to Egypt, but its origins are questionable since it has been used widely around the world. It is cultivated in many places, including Europe, South America, Asia, and parts of the United States. Only the seeds (flaxseed) and oil of the flax plant (flaxseed oil) are used medicinally. Linseed oil is the term usually used for the oil found in polishes, varnishes, and paints. Flaxseed oil is derived from the flax plant's crushed seeds, which resemble common sesame seeds but are darker. The amber oil is very rich in a type of fat called alpha-linolenic acid (ALA), an omega-3 fatty acid that is good for the heart and found in certain plants. High amounts of omega-3 fatty acids are found in fish and smaller amounts are found in green leafy vegetables, soy-derived foods, and nuts. Many doctors consider these acids important for cardiovascular health. Studies suggest that they can lower triglyceride levels and reduce blood pressure. Omega-3 fatty acids may also decrease the risk of heart attacks and strokes by preventing the formation of dangerous blood clots within arteries. In high dosages, the fatty acids may help to alleviate arthritis, though flaxseed products have not yet been shown to be effective for this purpose. In addition to omega-3 fatty acids, flaxseed products also contain potentially therapeutic chemicals called lignans. Lignans are believed to have antioxidant properties and may also act as phytoestrogens, very weak forms of estrogen found in fruits, vegetables, whole grains, and beans. Unlike human estrogen, phytoestrogens have dual properties: they can mimic the effects of the hormone in some parts of the body while blocking its effects in others. Many herbalists believe that phytoestrogens can be useful in the prevention or treatment of a variety of diseases, including cancer , cardiovascular disease, and osteoporosis . The estrogen-blocking effects of phytoestrogens may be particularly effective at combating certain cancers that depend on hormones, such as cancers of the breast or uterus. Women who consume large amounts of lignans appear to have lower rates of breast cancer . The fact that heart disease and certain cancers occur less frequently in Asian countries is sometimes attributed to a diet rich in plant foods containing phytoestrogens.

Pycnogenol® is the patented trade name for a water extract of the bark of the French maritime pine ( Pinus pinaster ssp. atlantica ), which is grown in coastal south-west France. Pycnogenol® contains oligomeric proanthocyanidins (OPCs) as well as several other bioflavonoids: catechin, epicatechin, phenolic fruit acids (such as ferulic acid and caffeic acid), and taxifolin. Procyanidins are oligometric catechins found at high concentrations in red wine, grapes, cocoa, cranberries, apples, and some supplements such as Pycnogenol®. There has been some confusion in the U.S. market regarding OPC products containing Pycnogenol® or grape seed extract (GSE), because one of the generic terms for chemical constituents ("pycnogenols") is the same as the patented trade name (Pycnogenol®). Some GSE products were formerly erroneously labeled and marketed in the U.S. as containing "pycnogenols." Although GSE and Pycnogenol® do contain similar chemical constituents (primarily in the OPC fraction), the chemical, pharmacological, and clinical literature on the two products is distinct. The term Pycnogenol® should therefore only be used to refer to this specific proprietary pine bark extract. Scientific literature regarding this product should not be referenced as a basis for the safety or effectiveness of GSE.

Pine bark extract is made from the bark of a European coastal pine tree called the Landes or maritime pine, whose scientific name is Pinus maritima . The maritime pine is a member of the Pineaceae family. Pine bark extract is a new nutritional supplement used for its antioxidant properties, which are believed to be effective for a wide range of healing and preventative purposes. Pine bark extract has been patented by a French researcher under the name Pycnogenol (pronounced pick-nah-jen-all). Pine bark extract has a 450-year-old legend surrounding it. There is a written account of an event that happened in 1534, when a French ship led by explorer Jacques Cartier became stranded in ice near Quebec, Canada. Cartier's crew became severely sick from scurvy, which used to be a fatal disease caused by a lack of vitamin C in the diet. Cartier's crew was saved when a Quebec Indian instructed them to drink a brew made from pine bark and needles. Four centuries later, a French researcher named Jacques Masquelier discovered the reason for the effectiveness of this remedy. A substance found in pine bark acts as an antioxidant in the body, and greatly increases the effectiveness of the vitamin C found in the pine needles. During the 1950s, Masquelier had heard the story of Cartier when he was in Canada performing research. He was investigating a group of substances called flavonols, which he originally found in peanut skins. Flavonols and bioflavonoids are substances in fruits and vegetables that give them their color. Masquelier found that these substances have beneficial effects in the body, particularly in improving circulation and repairing tissue. He later found that an abundant source of these substances was the bark of pine trees that grew on the coasts of southern France. Pine bark was also the most efficient source of the substance, because it took only warm water and pressure to extract the substance from trees that were considered a waste product. Masquelier called his pine bark extract Pycnogenol, and continued his research on pine bark extract and bioflavonoids for decades. In 1987, the United States awarded him a patent. Only Masquelier's pine bark extract can legally claim to have antioxidant properties. Antioxidants play a key role of repairing and protecting cells in the body. They help protect against free radicals, which are damaging byproducts of metabolism and exposure to environmental pollutants. Free radical damage is believed to contribute to aging , as well as too severe conditions including heart disease and cancer . Common antioxidants are vitamins A, C, E, and the mineral selenium . Researchers have termed the group of antioxidants found in pine bark extract oligomeric proanthocyanidins, or OPCs for short. OPCs (also referred to as PCOs) are some of the most powerful antioxidants available. OPCs are found in many common foods. In fact, OPCs are at the center of what has been called the French paradox. The French paradox has to do with the fact that the French eat as much cholesterol as Americans, yet have a significantly reduced incidence of heart disease. Researchers have theorized that one reason for this paradox is the French consumption of red wine with meals. Red wine is rich in bioflavonoids, including OPCs, which have been shown to protect blood vessels from cholesterol. Another OPC supplement on the market besides pine bark extract is grape seed extract , which is the cheapest and most widely used source of OPCs. Much research has been conducted on OPCs and on pine bark extract. In France, pine bark extract and OPCs have been rigorously tested for safety and effectiveness, and pine bark extract is a registered drug. Pine bark extract has been shown to contain a powerful antioxidant that helps protect cells from free radical damage and increases the effectiveness of vitamin C. Pine bark extract has been shown to help lower cholesterol, and to decrease the risk and severity of atherosclerosis , or damage t

Vitamin B6 (pyridoxine) is required for the synthesis of the neurotransmitters serotonin and norepinephrine, and for myelin formation. Pyridoxine deficiency in adults principally affects the peripheral nerves, skin, mucous membranes, and the blood cell system. In children, the central nervous system (CNS) is also affected. Deficiency can occur in people with uremia, alcoholism, cirrhosis, hyperthyroidism, malabsorption syndromes, congestive heart failure (CHF), and in those taking certain medications. Mild deficiency of vitamin B6 is common. Major sources of vitamin B6 include: cereal grains, legumes, vegetables (carrots, spinach, peas), potatoes, milk, cheese, eggs, fish, liver, meat, and flour. Pyridoxine is frequently used in combination with other B vitamins in vitamin B complex formulations.

Water-soluble, B complex vitamin.

Vitamin B6 is a water-soluble vitamin. Water-soluble vitamins dissolve in water. The body cannot store them. Leftover amounts of the vitamin leave the body through the urine. That means you need a continuous supply of such vitamins in your diet.

Pyridoxine, or vitamin B 6 , is a member of the water-soluble family of B vitamins. It is necessary in the processes to metabolize proteins, fats, and carbohydrates, to make hormones and neurotransmitters, and to support the immune system. It also plays a role in the production of normal, healthy red blood cells and some of the neurotransmitters needed for proper nervous system function. In conjunction with folic acid and cobalamin, it acts to reduce homocysteine levels, thus lowering the risk of developing heart disease .

Pantothenic acid (vitamin B5) is essential to all life, and is a component of coenzyme A (CoA), a molecule that is necessary for numerous vital chemical reactions to occur in cells. Pantothenic acid is essential to the metabolism of carbohydrates, proteins, and fats, as well as for the synthesis of hormones and cholesterol. The name pantothenic acid comes from the Greek word pantos, meaning "everywhere," referring to its wide distribution in most plants and animals. Rich food sources include meats, liver, kidney, fish/shellfish, chicken, vegetables, legumes, yeast, eggs, and milk. However, freezing and canning may lead to a loss of much of the pantothenic acid content. Whole grains are also a good source, although refining may degrade much of the pantothenic acid content. In commercial supplement products, vitamin B5 is available as D-pantothenic acid and as the synthetic products dexpanthenol (converted in the body to pantothenic acid) or calcium pantothenate. Pantothenic acid is frequently used in combination with other B vitamins in vitamin B complex formulations. Only the dextrorotatory (D) isomer of pantothenic acid possesses biologic activity. Pantothenic acid deficiency is exceedingly rare, and likely only occurs only in cases of the most severe life-threatening malnutrition. Most individuals likely obtain sufficient amounts from dietary sources. Pantothenic acid has been used or studied for numerous health conditions, but has not been clearly demonstrated as beneficial for any. Oral, topical (on the skin), or injected forms have been used.

Pantothenic acid and biotin are types of B vitamins. They are water-soluble, which means that the body can't store them. If the body can't use all of the vitamin, the extra leaves the body through the urine. Therefore, these vitamins must be replaced every day.

Pantothenic acid, also known as vitamin B 5 , is a member of the water-soluble B vitamin family. It is an essential ingredient of two substances, coenzyme A and acyl carrier protein, which are needed to metabolize carbohydrates and fats. The same coenzymes play a part in production of certain hormones, vitamin D , red blood cells, and the neurotransmitter acetylcholine. Pantothenic acid is necessary for proper growth and development. Studies of Mexican infants whose diets are deficient in micronutrients have shown that those who receive dietary supplements containing pantothenic acid do not show the growth retardation that appears in control groups.

Gamma linolenic acid (GLA) is a dietary omega-6 fatty acid found in many plant oil extracts. Commercial products are typically made from seed extracts from evening primrose (average oil content 7-14%), blackcurrant (15-20%), borage oil (20-27%) and fungal oil (25%). GLA is not found in high levels in the diet. It has been suggested that some individuals may not convert the omega-6 fatty acid linoleic acid to longer chain derivatives, such as GLA, efficiently. Thus, supplementation with GLA-containing oils, such as borage oil and evening primrose oil, is occasionally recommended to increase GLA levels in the body. GLA is available commonly as a dietary supplement and is sold over the counter in capsules or oil to treat a variety of conditions such as eczema, oral mucoceles (mucus polyps), hyperlipidemia (high cholesterol), depression, postpartum depression, chronic fatigue syndrome (CFS), psoriasis (chronic skin disease), muscle aches, and menopausal flushing. There is currently good evidence for GLA treatment in rheumatoid arthritis, acute respiratory distress syndrome, and diabetic neuropathy (nerve damage). Little or no effect has been found in treatment of atopic dermatitis, attention deficit hyperactivity disorder (ADHD), cancer prevention, menopausal flushing, systemic sclerosis, and hypertension (high blood pressure). GLA has also been used to help with the body's response to tamoxifen in breast cancer patients. Today, production and extraction of oil from evening primrose and borage is done by companies primarily in China, New Zealand, and England. Pharmaceutical licensing for GLA oil products has had only limited success worldwide.

SAMe was first discovered in 1953 by a researcher named Cantoni. It is formed in the body from methionine and adenosine triphosphate in a reaction catalyzed by methionine adenosyltransferase. SAMe functions as a primary methyl group donor in a variety of reactions in the body. After donating a methyl group, SAMe is converted to S-adenosyl-homocysteine. SAMe is used for psychiatric illnesses, infertility, liver concerns, premenstrual disorders and musculoskeletal disorders, among others. SAMe has been studied extensively in the treatment of osteoarthritis and depression. Many trials provide evidence that SAMe reduces the pain associated with osteoarthritis and is well tolerated in this patient population. Some evidence is available for the use of SAMe for intrahepatic cholestasis of pregnancy although additional study is needed in this area. Anti-inflammatory and analgesic (pain relieving) activity has also been attributed to SAMe. Future well-designed clinical trials are required in the areas of depression, fibromyalgia and liver cholestasis before a strong recommendation can be made in these areas.

Ademetionine, also known as SAMe, is a specific form of the amino acid methionine known as S-adenosyl-methionine. The body manufactures it, and it is found in most tissues of the body. Ademetionine is essential for the formation of glutathione , a water-soluble peptide that helps the body fight free radicals. SAMe also helps the liver to process fats (protecting against a fatty liver) and is believed to play a role in protecting the body from heart disease . SAMe is a methyl donor, which means that it provides other molecules with methyl groups that are critical to their metabolism. In general, ademetionine raises the level of functioning of other amino acids in the body. Severe deficiencies of SAMe can cause problems with other important body functions, such as secretion of important hormones like melatonin , which plays a key role in regulating sleep and circadian rhythms.

SAD see Seasonal affective disorder Sadism see Sexual sadism

The main function of L-carnitine is to transfer long-chain fatty acids in the form of their acyl-carnitine esters across the inner mitochondrial membrane before beta-oxidation. In humans, it is synthesized in the liver, kidney, and brain and actively transported to other areas of the body. For example, 98% of the total body L-carnitine is confined to the skeletal and cardiac muscle at concentrations approximately 70 times higher than in the blood serum. Supplementation may be necessary in rare cases of primary carnitine deficiency, which may be caused by a defect in carnitine biosynthesis, a defect in carnitine active transport into tissue, or a defect in renal (kidney) conservation of carnitine. Known conditions of secondary deficiency of carnitine (insufficiency), in which L-carnitine is effective, include chronic stable angina and intermittent claudication characterized by distinct tissue hypoxia (low oxygen levels). Another condition that may benefit from carnitine supplementation is decreased sperm motility. Although use in preterm infants suggests carnitine supplementation may aid in maintaining or increasing plasma carnitine levels and possibly weight gain, carnitine is not routinely added to preterm total parenteral nutrition (TPN). However, soy-based infant formulas are fortified with carnitine to levels found in breast milk. In 1986, the U.S. Food and Drug Administration (FDA) approved L-carnitine for use in primary carnitine deficiency. D-carnitine or DL-carnitine may cause secondary L-carnitine deficiency and should not be used.

Ferrous fumarate, ferrous gluconate, ferrous sulfate, carbonyl iron, and polysaccharide-iron complex are used orally in the prevention and treatment of iron deficiency.

Amino acid derivative; naturally occurring substance required in mammalian energy metabolism.

Carnitine is an amino acid that is essential for babies and nonessential for others. In this context, essential means it must be obtained in the diet. Nonessential types of amino acids can be synthesized to some extent within the body. The kidney is able to form carnitine from the amino acids lysine and methionine , in addition to iron and vitamins B 6 , niacin , and C. The function of carnitine is to mobilize long-chain fatty acids into the powerhouse of the cell, where they are used for energy. Carnitine is necessary for infants to grow and develop normally.

Evening primrose oil (EPO) contains an omega-6 essential fatty acid, gamma-linolenic acid (GLA), which is believed to be the active ingredient. EPO has been studied in a wide variety of disorders, particularly those affected by metabolic products of essential fatty acids. However, high-quality evidence for its use in most conditions is still lacking.

Evening primrose oil is a dietary supplement derived from the seeds of the evening primrose plant, Oenothera biennis . Its Latin name is derived from the Greek word for wine, reflecting the folk belief that the plant could relieve the symptoms of a hangover. Other names for the plant are tree primrose and sundrop. Native Americans used the leaves and bark of evening primrose as a sedative and astringent; it was given for stomach and liver complaints as well as disorders of the female reproductive system. More recently, the discovery of antioxidant and other properties of the seed oil has focused attention on its usefulness in treating a range of diseases and disorders, including as an anti-inflammatory, and for premenstrual syndrome (PMS), rheumatoid arthritis, diabetes, osteoporosis, ulcerative colitis, menopausal problems, and heart disease.