- Supports healthy immune functions
- Supports skeletal health and growth
- Supports healthy teeth and gums
- Supports growth and strength of teeth and bones
- Supports healthy growth and development
- Supports brain health
- Supports a healthy heart
DNA Miracles™ Gummy Vitamins
As a parent, you want to be sure about the health of your children. With DNA Miracles Gummy Vitamins, you can rest easy knowing that you’re providing your children one of the most complete children’s multivitamin formulas on the market today.
Usually with children’s vitamins, there is a trade-off: more vitamins with a less pleasing taste, or an appealing flavor with very little nutritional value. Some children’s vitamins – especially gummies – on the market today include mere four or five vitamins.
DNA Miracles Gummy Vitamins provides your child with 23 vitamins and minerals, including 100 percent or more of the daily recommended value of 13 nutrients. Compared to its competitors, DNA Miracles Gummy Vitamins is a more complete nutritional formula of the highest quality for less cost per serving, meaning kids are getting more while parents are saving more.
In addition, while many children’s multivitamins include lots of sugar and unnecessary binders and fillers, DNA Miracles Gummy Vitamins provides your children more of what they need, and less of what they don’t. Each tasty gummy multivitamin has 1.5 grams of sugar – half the amount of leading children’s multivitamins on the market today – and contains no artificial colors or flavors.
Parents always want to give their kids the best. With DNA Miracles Gummy Vitamins, not only can you be sure you’re doing all you can to support your children’s health, but you receive our pledge to protect your little miracle through our commitment to quality and care.
Because Every Child is a Miracle.
*These statements have not been evaluated by the Food and Drug Administration. This product(s) is not intended to diagnose, treat, cure or prevent any disease.
With DNA Miracles Gummy Vitamins, you can rest easy knowing that you're providing your children with one of the most complete children's multivitamin formulas on the market. With 23 vitamins and minerals, including 100% or more of the daily recommended value of 13 necessary nutrients, DNA Miracles Gummy Vitamins contain only 1.5 grams of sugar - half the amount of leading children's multivitamins - and is free of artificial colors and flavors. While other children's multivitamins include lots of sugar and unnecessary binders and fillers, DNA Miracles Gummy Vitamins provide your children more of what they need, and less of what they don't.
Grand kids love these
My Grand kids are now making sure I have the next order on its way so they don't run out. They love them and I have not seen any of the three kids getting sick with other kids at their school sick.
Great For Your Children Or As A Gift
I have given these vitamins as gifts to my neices they love them! They taste great, don't stick to teeth and I love the fact that they contain 23 different vitamin and minerals and only 1.5 grams of sugar! There are no similar products. Just great! Will share these with all of the parents I know.
These are the best! My children love them and my 20 month old daughter walked around asking for more all day long! I tried them and they don't stick to your teeth like other gummy's. Defiantly will be buying these again!
My 2 year old daughter LOVES these vitamins!
Vitamin A (Beta-Carotene)
Vitamin A is a fat-soluble vitamin. Sources of vitamin A include organ meats (such as liver and kidney), egg yolks, butter, carrot juice, squash, sweet potatoes, spinach, peaches, fortified dairy products and cod liver oil.
Vitamin A is also part of a family of compounds, including retinol, retinal and beta-carotene. Beta-carotene, also known as pro-vitamin A, can be converted into vitamin A when additional levels are required. Vitamin A supports the normal growth and repair of body tissue, helps to promote normal bone growth, and a healthy immune system.
Vitamin C is found in peppers (sweet, green, red, hot red and green chili), citrus fruits and brussels sprouts, cauliflower, cabbage, kale, collards, mustard greens, broccoli, spinach, guava, kiwi fruit, currants and strawberries. Nuts and grains contain small amounts of vitamin C. It is important to note that cooking destroys vitamin C activity.
Vitamin C is integral in supporting a healthy immune system, promoting cardiovascular health, helping to maintain healthy cholesterol levels and providing an antioxidant defense. The body does not manufacture vitamin C on its own, nor does it store it. Therefore, vitamin C must be acquired through diet and supplementation.
Regular sunlight exposure is the main way that most humans get their vitamin D. Food sources of vitamin D are vitamin D-fortified milk (100 IU per cup), cod liver oil, and fatty fish such as salmon. Small amounts are found in egg yolks and liver. Vitamin D promotes the absorption of calcium and phosphorus, and supports the production of several proteins involved in calcium absorption and storage.
Vitamin D works with calcium to promote hard, strong bones. It works to promote active transport of calcium out of the osteoblasts into the extra-cellular fluid and in the kidneys, promotes calcium and phosphate uptake by renal tubules. Vitamin D also promotes the normal absorption of dietary calcium and phosphate uptake by the intestinal epithelium. It promotes healthy growth and repair of tissues, and supports overall skin health.
The most valuable sources of dietary vitamin E include vegetable oils, margarine, nuts, seeds, avocados and wheat germ. Safflower oil contains large amounts of vitamin E (about two thirds of the RDA in ¼ cup), and there are trace amounts in corn oil and soybean oil. Vitamin E is actually a family of related compounds called tocopherols and tocotrienols.
Vitamin E is available in a natural or synthetic form. In most cases, the natural and synthetic forms are identical except the natural form of vitamin E is better absorbed and retained in the body. The natural form of alpha-tocopherol is known as "d-alpha tocopherol." The synthetic "dl-" form is the most common form found in dietary supplements. For those individuals watching their dietary fat consumption, which is relatively common in the world of dieting, vitamin E intake is likely to be low, due to a reduced intake of foods with high fat content.
The main health benefit of supplemental vitamin E comes from its immune-boosting antioxidant activity. It also supports normal healing and is known to promote cardiovascular health. Vitamin E is one of the most powerful fat-soluble antioxidants in the body. In turn, vitamin E protects cell membranes from free radicals.
Vitamin B1 (Thiamin)
Thiamin promotes carbohydrate metabolism and nerve function. Thiamin is required for a healthy nervous system and assists in the production of the neurotransmitter acetylcholine and gamma-aminobutyric acid (GABA). It is used in the manufacture of hydrochloric acid and, therefore, supports digestion, increases energy and helps promote mental clarity.
Vitamin B2 (Riboflavin)
Vitamin B2 is found in liver, dairy products, dark green vegetables and some types of seafood. Vitamin B2 serves as a co-enzyme, working with other B vitamins. It promotes healthy blood, and supports both the nervous system and normal human growth. It supports healthy growth of skin, nails, and hair. Vitamin B2 plays a crucial role in turning food into energy as a part of the electron transport chain, driving cellular energy on the micro-level.
Vitamin B2 supports the breakdown of fats while functioning as a cofactor or helper to support the activation of B6 and folic acid. Vitamin B2 is water-soluble and cannot be stored by the body except in insignificant amounts; thus, it must be replenished daily. Under some conditions, vitamin B2 can act as an antioxidant. The riboflavin coenzymes are also important for the transformation of vitamin B6 and folic acid into their active forms, and for the conversion of tryptophan into niacin.
Vitamin B3 (Niacin)
Vitamin B3, also known as niacin, is a water-soluble vitamin that supports many aspects of health and growth. Part of the vitamin B complex, niacin supports the functioning of the digestive system, skin and nerves and is important for the conversion of food to energy. Niacin is found in dairy products, poultry, fish, lean meats, nuts, eggs, legumes, and enriched breads and cereals.
Vitamin B6 (pyridoxal 5’ phosphate)
Poultry, fish, whole grains and bananas are the main dietary sources of vitamin B6. Vitamin B6 is a co-factor required for protein and amino acid metabolism and helps maintain proper fluid balance. It also assists in the maintenance of healthy red and white blood cells. Vitamin B6 promotes normal hemoglobin synthesis. It is involved in the synthesis of neurotransmitters in brain and peripheral nerve cells, it has been recommended as a nutrient to support mental function, specifically mood, and it supports normal nerve conduction.
Vitamin B6, when taken with folic acid, has been shown to help maintain normal plasma levels of homocysteine, which promotes optimal cardiovascular health. Vitamin B6 should be administered as a part of a complex of other B-vitamins for best results.
Folic acid is mainly found in fruits and vegetables. Dark, leafy greens, oranges, orange juice, beans and peas are the best sources as well as Brewer’s yeast, which supplies additional B-vitamins. Folic acid plays a key role by boosting the benefits of vitamin B12 supplementation. These two B-vitamins join forces and work together in helping to maintain normal red blood cells.
Folic acid assists in the normal utilization of amino acids and proteins as well as promoting the normal construction of the material for DNA and RNA synthesis. Scientific studies have found that when working in tandem with folic acid, vitamin B12 is capable of promoting healthy cardiovascular and nervous systems.
Vitamin B12 (Methylcobalamin)
Vitamin B12 is naturally found in meats, liver, beef, pork, eggs, whole milk, cheese, whole wheat bread and fish. Vitamin B12 can only be found in animal products, with small amounts derived from fermented soy products, such as miso and tempeh, and peanuts. It is essential that vegetarians consume a vitamin B12 supplement to maintain optimal health.
Vitamin B12 itself is responsible for maintaining optimum energy levels, as it plays a vital role in the Krebs energy cycle. It also supports normal concentration.
Biotin can be found in food sources, such as egg yolks, peanuts, beef liver, milk, cereals, almonds and Brewer’s yeast. Biotin promotes healthy cell growth, the production of fatty acids, metabolism of fats and amino acids. It plays a role in the citric acid cycle, which is the process in which biochemical energy is generated during aerobic respiration. Biotin not only assists in various metabolic chemical conversions but also helps to transfer carbon dioxide. Biotin is also helpful in maintaining a steady blood sugar level. Biotin is often recommended for strengthening hair and nails.
Pantothenic acid (B5) is the transfer agent for choline to acetylcholine, which promotes proper neurotransmitter activity in the brain. Pantothenic acid is also known as the anti-stress vitamin because it detoxifies brain tissue, helps relieve physical and emotional stress and plsupports the normal secretion of hormones.
Calcium is found in milk, cheese, yogurt, corn tortillas, Chinese cabbage (Napa), kale and broccoli. Calcium is an essential mineral with a wide range of biological roles. The skeleton has an obvious structural requisite for calcium. The skeleton also acts as a storehouse for calcium. Apart from being a major constituent of bones and teeth, calcium promotes normal muscle contraction, nerve conduction, cardiovascular health, the production of energy and helps maintain a healthy immune system.
A sufficient daily calcium intake is necessary for maintaining bone density, and maintaining healthy teeth and bones. When the body does not obtain enough calcium each day, it draws calcium from the bones causing them to thin, leading to osteoporosis.
Iodine is found in most seafood and in iodized salt. It is a necessary component of thyroid hormones and helps regulate and maintain a properly functioning metabolism.
Foods rich in magnesium include unpolished grains, nuts and green vegetables. Green, leafy vegetables are potent sources of magnesium because of their chlorophyll content. Meats, starches and milk are less rich sources of magnesium. Refined and processed foods are generally quite low in magnesium.
Magnesium is a component of the mineralized part of bone, and is necessary for the metabolism of potassium and calcium in adults. It helps maintain normal levels of potassium, phosphorus, calcium, adrenaline and insulin. It is also important for the mobilization of calcium, transporting it inside the cell for further utilization. It plays a key role in the functioning of muscle and nervous tissue. Magnesium promotes the synthesis of all proteins, nucleic acids, nucleotides, cyclic adenosine monophosphate, lipids and carbohydrates.
Magnesium is required for release of energy, and it promotes the normal regulation of body temperature and proper nerve function. It helps the body handle stress, and it promotes a healthy metabolism. Magnesium works together with calcium to promote the normal regulation of the heart and blood pressure. Importantly, magnesium is also required by the body to build healthy bones and teeth, and promotes proper muscle development. It works together with calcium and vitamin D to help keep bones strong. Magnesium also promotes cardiovascular health by supporting normal platelet activity and helping to maintain normal cholesterol levels.
Zinc is largely found in fortified cereals, red meats, eggs, poultry and certain seafood, including oysters. It is a component of multiple enzymes and proteins. It is also involved in the regulation of gene expression. Zinc is an essential trace mineral that has functions in approximately 300 different enzyme reactions. Thus, zinc plays a part in almost all biochemical pathways and physiological processes.
More than 90 percent of the body’s zinc is stored in the bones and muscles, but zinc is also found in virtually all body tissues. It has been claimed that zinc supports normal healing and the immune system. Because zinc is involved in such a great number of enzymatic processes, it has been found to support a large range of functions, including digestion, energy production, growth, cellular repair, collagen synthesis, bone strength, cognitive function and carbohydrate metabolism.
The best dietary sources of selenium include nuts, unrefined grains, brown rice, wheat germ and seafood. In the body, selenium functions as part of an antioxidant enzyme called glutathione peroxidase, as well as promoting normal growth and proper usage of iodine in thyroid functioning. Selenium also supports the antioxidant effect of vitamin E and is often added to vitamin E supplements. As part of the antioxidant, glutathione peroxidase, selenium plays a direct role in the body’s ability to protect cells from free radicals.
The richest sources of dietary copper derive from organ meats, seafood, nuts, seeds, wheat bran cereal, whole grain products and cocoa products. Copper may have some antioxidant properties and acts as a component of enzymes in iron metabolism. It is an essential trace mineral. Copper is needed in normal infant development, iron transport, bone strength, cholesterol metabolism, myocardial contractility, glucose metabolism, brain development and immune function.
Manganese is a mineral found in large quantities in both plant and animal matter. The most valuable dietary sources of manganese include whole grains, nuts, leafy vegetables and teas. Manganese is concentrated in the bran of grains, which is often removed during processing. There are several forms of supplementary manganese, including manganese gluconate, manganese sulfate, manganese ascorbate and manganese amino acid chelates.
Only trace amounts of this element can be found in human tissue. Manganese is predominantly stored in the bones, liver, kidney and pancreas. It supports the normal formation of connective tissue, bones, blood-clotting factors and sex hormones. It promotes normal fat and carbohydrate metabolism, calcium absorption and blood sugar regulation. Manganese also promotes normal brain and nerve function.
Chromium is found naturally in some cereals, meats, poultry, brewer’s yeast, broccoli, prunes mushrooms, fish and beer. Chromium is an essential trace mineral that helps maintain normal blood glucose levels, and helps the body maintain of healthy blood levels of cholesterol and other fats. Chromium combines to form something in the body called glucose tolerance factor, or GTF, which promotes normal insulin activity in helping to maintian blood sugar levels.
Bioflavonoids are antioxidants found in certain plants that act as light filters, which protect delicate DNA chains and other important macromolecules by absorbing ultraviolet radiation. They have been found to promote cardiovascular health, and help maintain healthy circulation by supporting capillaries, arteries and veins.
Boron is a mineral found at high levels in plant foods, such as dried fruits, nuts, dark green, leafy vegetables, applesauce, grape juice, and cooked dried beans and peas. Boron is found in most tissues, but mainly in the bone, spleen and thyroid. Boron supports normal bone and hormone metabolism.
Boron supports the body’s ability to build and maintain healthy bones. It also helps retain adequate amounts of calcium and magnesium to promote proper bone mineralization. Boron is an essential cofactor for the converting vitamin D to its active form. It enhances the maintenance of healthy cell membranes, proper mental functioning and alertness, and supports normal serum estrogen levels and ionized calcium.
Foods rich in vanadium include black pepper, mushrooms, shellfish, parsley and dill seed. Studies have shown that vanadium helps maintain healthy blood glucose levels.
- Abrams SA. Bone turnover during lactation--can calcium supplementation make a difference? J Clin Endocrinol Metab. 1998 Apr;83(4):1056-8.
- Acott TS, Weleber RG. Vitamin A megatherapy for retinal abnormalities. Nature Med. 1995; 1:884-885
- Agus DB, Gambhir SS, Pardridge WM, et al. Vitamin C crosses the blood-brain barrier in the oxidized form through the glucose transporters. J Clin Invest. 1997; 100:2842-2848.
- Alaejos MS, Romero FJD, Romero CD. Selenium and cancer: some nutritional aspects. Nutrition. 2000; 16:376-383.
- Anderson RA. Effects of chromium on body composition and weight loss. Nutr Rev. 1998 Sep;56(9):266-70.
- Anon. Zinc lozenges reduce cold symptoms. Nutr Rev. 1997; 55:82-88.
- Arlt S, Finckh B, Beisiegel U, Kontush A. Time-course of oxidation of lipids in human cerebrospinal fluid in vitro. Free Radic Res. 2000 Feb;32(2):103-14.
- Barreto ML, Santos LMP, Assis AMO, et al. Effect of vitamin A supplementation on diarrhoea and acute lower-respiratory-tract infections in young children in
- Baxter GF, Sumeray MS, Walker JM. Infant size and magnesium: insights into LIMIT-2 and ISIS-4 from experimental studies. Lancet. 1996; 348:1424-1426.
- Benn CS, Aaby P, Balé C, et al. Randomized trial of effect of vitamin A supplementation on antibody response to measles vaccine in Guinea-Bissau, West Africa. Lancet. 1997; 350:101-105.
- Berg JM, Shi Y. The galvanization of biology: a growing appreciation for the roles of zinc. Science. 1996; 271:1081-1085.
- Bishop N. Rickets today--children still need milk and sunshine (editorial). N Engl J Med. 1999; 341:602-603.
- Brazil. Lancet. 1994; 344:228-231 Bates CJ. Vitamin A. Lancet. 1995; 345:31-35.
- Brigelius-Flohe R, Traber MG. Vitamin E: function and metabolism. FASEB J. 1999; 13:1145-1155.
- Bronner F, Pansu D. Nutritional aspects of calcium absorption. J Nutr. 1999; 129:9-12.
- Brun JF, Dieu-Cambrezy C, Charpiat A, Fons C, Fedou C, Micallef JP, Fussellier M, Bardet L, Orsetti A. Serum zinc in highly trained adolescent gymnasts. Biol Trace Elem Res. 1995 Jan-Mar;47(1-3):273-8.
- Buchinger W, Lorenz-Wawschinek O, Semlitsch G, Langsteger W, Binter G, Bonelli RM, Eber O. Thyrotropin and thyroglobulin as an index of optimal iodine intake: correlation with iodine excretion of 39,913 euthyroid patients. Thyroid. 1997 Aug;7(4):593-7.
- Burk RF, ed. Selenium in Biology and Human Health. New York, NY: Springer-Verlag; 1994.
- Burk RF, Levander OA. Selenium. In: Shils ME, Olson JA, Shike M, Ross AC, eds. Modern Nutrition in Health and Disease. Baltimore, MD: Williams and Wilkins; 1999:265-276.
- Calomme MR, Vandem Berghe DA. Supplementation of calves with stabilized orthosilicic acid. Effect on the Si, Ca, Mg, and P concentrations in serum and the collagen concentration in skin and cartilage. Biol Trace Elem Res. 1997; 56:153-165.
- Carlisle EM. Silicon as a trace nutrient. Sci Total Environ. 1988; 73:95-106.
- Carlisle EM. The nutritional essentiality of silicon. Nutr Rev. 1982; 40:193-198.
- Carrasco N. Iodide transport in the thyroid gland. Biochim Biophys Acta. 1993; 1154:65-82.
- Cooney RV, Franke AA, Hankin JH, Custer LJ, Wilkens LR, Harwood PJ, Le Marchand L. Seasonal variations in plasma micronutrients and antioxidants. Cancer Epidemiol Biomarkers Prev. 1995 Apr-May;4(3):207-15.
- Copp RP, Wisniewski T, Hentati F, Larnaout A, Ben Hamida M, Kayden HJ. Localization of alpha-tocopherol transfer protein in the brains of patients with ataxia with vitamin E deficiency and other oxidative stress related neurodegenerative disorders. Brain Res. 1999 Mar 20;822(1-2):80-7.
- Davidsson L. Are vegetarians an "at risk group' for iodine deficiency? Br J Nutr. 1999; 81:3-4.
- de Lourdes Lima M, Cruz T, Carreiro Pousada J, et al. The effect of magnesium supplementation in increasing doses on the control of type 2 diabetes. Diabetes Care. 1998; 21:682-686.
- De Luca HF, Zierold C. Mechanisms and functions of vitamin D. Nutr Rev. 1998; 56:S4-S10.
- Delange F. Risks and benefits of iodine supplementation. Lancet. 1998; 351:923-924.
- Dietary Reference Intakes For Calcium, Phosphorous, Magnesium, Vitamin D, and Fluoride. Washington, DC: National Academy Press; 1997.
- Dietary Reference Intakes for Calcium, Phosphorous, Magnesium, Vitamin D, and Fluoride. Washington, DC: National Academy Press; 1997
- Dietary Reference Intakes for Calcium, Phosphorus, Magnesium, Vitamin D, and Fluoride. Washington, DC: National Academy Press; 1997.
- Dietary Reference Intakes for Vitamin C, Vitamin E, Selenium and Carotenoids. Washington, D.C.: National Academy Press; 2000.
- Dietary Reference Intakes for Vitamin C, Vitamin E, Selenium, and Carotenoids. Washington, D.C.: National Academy Press; 2000.
- Dietary Reference Intakes for Vitamin C, Vitamin E, Selenium, and Carotenoids. Washington, DC: National Academy Press; 2000.
- Donaldson RM Jr, Barreras RF. Intestinal absorption of trace quantities of chromium. J Lab Clin Med. 1966; 68:484-493.
- Dreon DM, Butterfield GE. Vitamin B6 utilization in active and inactive young men. Am J Clin Nutr. 1986 May;43(5):816-24.
- Durlach J, Durlach V, Bac P, et al. Magnesium and therapeutics. Magnes Res. 1994; 7:313-328.
- Eastwood MA. Interaction of dietary antioxidants in vivo: how fruit and vegetables prevent disease? QJM. 1999 Sep;92(9):527-30.
- Enstrom JE, Kanim LE, Klein MA. Vitamin C intake and mortality among a sample of the United States population. Epidemiology. 1992; 3:194-202.
- Fang J, Madhavan S, Alderman MH. Dietary potassium intake and stroke mortality. Stroke. 2000; 31:1532-1537.
- Fell JME, Reynolds AP, Meadows N, et al. Manganese toxicity in children receiving long-term parenteral nutrition. Lancet. 1996; 347:1218-1221.
- Fenech M, Dreosti I, Aitken C. Vitamin-E supplements and their effect on vitamin-E status in blood and genetic damage rate in peripheral blood lymphocytes. Carcinogenesis. 1997 Feb;18(2):359-64.
- Floyd RA. Antioxidants, oxidative stress, and degenerative neurological disorders. Proc Soc Exp Biol Med. 1999 Dec;222(3):236-45.
- Fraser DR. Vitamin D. Lancet. 1995; 345:104-107.
- Glorieux FH, Feldman D, eds. Vitamin D. San Diego, CA: Academic Press; 1997.
- Hadi H, Stoltzfus RJ, Dibley MJ, et al. Vitamin A supplementation selectively improves the linear growth of Indonesian preschool children: results from a randomized controlled trial. Am J Clin Nutr. 2000; 71:507-513.
- Halliwell B. Antioxidant defence mechanisms: from the beginning to the end (of the beginning). Free Radic Res. 1999 Oct;31(4):261-72.
- Hambridge M. Human zinc deficiency. J Nutr. 2000; 130:1344S-1349S.
- Harris ED. Cellular copper transport and metabolism. Annu Rev Nutr. 2000; 20:291-310.
- Harrison MD, Jones CE. Solioz M, Dameron CT. Intracellular copper routing: the role of copper chaperones. Trends Biochem Sci. 2000; 25:29-32.
- Heaney RP, Dowell MS, Barger-Lux MJ. Absorption of calcium as the carbonate and citrate salts, with some observations on method.Osteoporosis Int. 1999; 9:19-23.
- Heaney RP. Calcium, dairy products and osteoporosis. J Am Coll Nutr. 2000; 19(2 Suppl):83S-99S.
- Heaney RP. Calcium, dairy products and osteoporosis. J Am Coll Nutr. 2000; 19(2 Suppl):83S-99S.
- Hemila H, Douglas RM. Vitamin C and acute respiratory infections. Int J Tuberc Lung Dis. 1999; 3:756-761
- Hendler SS. Micronutrition: vitamins, minerals, and trace elements. In: Newcomer VD, Young EM, eds. Geriatric Dermatology. Clinical Diagnosis and Practical Therapy. New York and Tokyo: Igaku-Shoin; 1989:365-393.
- Hetzel BS, Clugston GA. Iodine. In: Shils ME, Olson JA, Shike M, Ross CA. Modern Nutrition in Health and Disease, 9th ed. Baltimore, MD: Williams and Wilkens; 1999:253-264.
- Hetzel BS. Iodine and neuropsychological development. J Nutr. 2000; 130:493S-495S.
- Humphrey JH, Rice AL. Vitamin A supplementation of young infants. Lancet. 2000; 356:422-424.
- Ilich-Ernst JZ, McKenna AA, Badenhop NE, Clairmont AC, Andon MB, Nahhas RW, Goel P, Matkovic V. Iron status, menarche, and calcium supplementation in adolescent girls. Am J Clin Nutr. 1998 Oct;68(4):880-7.
- International Symposium on the Health Effects of Dietary Chromium. J Trace Elem Exp Med. 1999; 12:53-169.
- Iseri LT, French JH. Magnesium: nature's physiologic calcium blocker. Am Heart J. 1984; 108:188-193.
- Jacob RA. Vitamin C In: Shils ME, Olson JA, Shike M, Ross AC, eds. Modern Nutrition in Health and Disease. 9th ed. Baltimore, MD: William and Wilkins; 1999:467-483.
- Jeejeebhoy KN. The role of chromium in nutrition and therapeutics and as a potential toxin. Nutr Rev. 1999; 57:329-335.
- Kanter M. Free radicals, exercise and antioxidant supplementation. Proc Nutr Soc. 1998 Feb;57(1):9-13
- Kato S. The function of vitamin D receptor in vitamin D action. J Biochem. 2000; 127:717-722.
- Kayden HJ, Traber M. Absorption, lipoprotein transport and regulation of plasma concentrations of vitamin E in humans. J Lipid Res. 1993; 34:343-358.
- Keen CL, Ensunsa JL, Watson MH, et al. Nutritional aspects of manganese from experimental studies. Neurotoxicol. 1999; 20:213-223.
- Koo WW, Walters JC, Esterlitz J, Levine RJ, Bush AJ, Sibai B. Maternal calcium supplementation and fetal bone mineralization. Obstet Gynecol. 1999 Oct;94(4):577-82.
- Kreiter SR, Schwartz RP, Kirkman HN Jr., et al. Nutritional rickets in African American breast-fed infants. J Pediatr. 2000; 137:153-157.
- Lal H, Pandey R, Aggarwal SK. Vitamin D: non-skeletal actions and effects on growth. Nutr Res. 1999; 19:1683-1718.
- Lee M-O, Han S-Y, Jiang S, et al. Differential effects of retinoic acid on growth and apoptosis in human colon cancer cell lines associated with the induction of retinoic acid receptor beta. Biochem Pharmacol. 2000; 59:485-496.
- Leklem JE, Shultz TD. Increased plasma pyridoxal 5'-phosphate and vitamin B6 in male adolescents after 4500-meter run. Am J Clin Nutr. 1983 Oct;38(4):541-8.
- Lesser GT. Long-term prevention of bone loss. Ann Intern Med. 2000 Jul 4;133(1):72-3.
- Loeper J, Goy-Loeper J, Rozensztajn L, Fragny M. The antiatheromatous action of silicon. Atherosclerosis. 1979; 33:397-408.
- Lukaski HC. Chromium as a supplement. Annu Rev Nutr. 1999; 19:279-302.
- Malloy PJ, Feldman D. Vitamin D resistance. Am J Med. 1999; 106:355-370.
- Martini LA. Magnesium supplementation and bone turnover. Nutr Rev. 1999; 57:227-229.
- McCabe RD, Backarich MA, Srivastava K, Young DB. Potassium inhibits free radical formation. Hypertension. 1994; 24:77-82.
- Merz W. Chromium in human nutrition: a review. J Nutr. 1993; 123:626-633
- Mossad SB, Macknin ML, Medendorp SV, Mason PM. Zinc gluconate lozenges for treating the common cold. Ann Intern Med. 1996; 125:81-88.
- Nagatomo S, Umehara F, Hanada K, et al. Manganese intoxication during total parenteral nutrition: report of two cases and review of the literature. J Neurol Sci. 1999; 162:102-105.
- Nielsen FH. Ultratrace minerals. In: Shils ME, Olson JA, Shike M, Ross AC, eds. Modern Nutrition in Health and Disease, 9th ed. Baltimore, MD: Williams and Wilkins; 1999:283-303.
- Oginni LM, Sharp CA, Worsfold M, et al. Healing of rickets after calcium supplementation. Lancet. 1999; 353:296-297.
- Pauling L. Evolution and the need for ascorbic acid. Proc Natl Acad SciUSA. 1970; 67:1643-1648.
- Prasad AS. Zinc deficiency in human subjects. Prog Clin Biol Res. 1983;129:1-33.
- Prasad AS. Zinc deficiency in women, infants and children. J Am Coll Nutr. 1996; 15:113-120. Sazawal S, Black RE, Bhan MK, et al. Zinc supplementation in young children with acute diarrhea in India. N Engl J Med. 1995; 333:839-844.
- Prasad AS. Zinc: the biology and therapeutics of an ion. Ann Intern Med. 1996; 125:142-144.
- Recker RR. Calcium absorption and achlorhydria. N Engl J Med. 1985; 313:70-73.
- Reilly C. Selenium: a new entrant into the functional food arena. Trends Food Sci Technol. 1998; 9:114-118.
- Remer T, Neubert A, Manz F. Increased risk of iodine deficiency with vegetarian's nutrition. Br J Nutr. 1999; 81:45-49.
- Russell RM. The vitamin A spectrum: from deficiency to toxicity. Am J Clin Nutr. 2000; 71:878-884.
- Saari JT, Sahuschke DA. Cardiovascular effects of dietary copper deficiency. Biofactors. 1999; 10:359-375.
- Schmidt K. Antioxidant vitamins and beta-carotene: effects on immunocompetence. Am J Clin Nutr. 1991 Jan;53(1 Suppl):383S-385S.
- Schrauzer GN. Selenomethionine: a review of its nutritional significance, metabolism and toxicity. J Nutr. 2000; 130:1653-1656.
- Semba RD, Muhilal, Scott AL, Natadisastra G, Wirasasmita S, Mele L, Ridwan E, West KP Jr, Sommer A. Depressed immune response to tetanus in children with vitamin A deficiency. J Nutr. 1992 Jan;122(1):101-7.
- Semba RD. Vitamin A, immunity, and infection. Clin Infect Dis. 1994 Sep;19(3):489-99.
- Silva JE. Effects of iodine and iodine-containing compounds on thyroid function. Med Clin North Am. 1985 Sep;69(5):881-98.
- Sinclair AJ, Taylor PB, Lunec J, Girling AJ, Barnett AH. Low plasma ascorbate levels in patients with type 2 diabetes mellitus consuming adequate dietary vitamin C. Diabet Med. 1994 Nov;11(9):893-8.
- Sojka JE. Magnesium supplementation and osteoporosis. Nutr Rev. 1995; 53:71-80.
- Strause L, Saltman P, Glowacki J. The effect of deficiencies of manganese and copper on osteo-induction and on resorption of bone particles in rats. Calcif Tissue Int. 1987; 41:145-150
- Taddei S, Virdis A, Ghiadoni L, et al. Vitamin C improves endothelium-dependent vasodilation by restoring nitric oxide activity in essential hypertension. Circulation. 1998; 97:2222-2229.
- Tannen RL. Effects of potassium on blood pressure control. Ann Intern Med. 1983; 98(part 2):773-780.
- Traber MG, Arai H. Molecular mechanisms of vitamin E transport. Annu Rev Nutr. 1999; 19:343-355.
- Umeta M, West CE, Haidar J, et al. Zinc supplementation and stunted infants in Ethiopia: a randomized controlled trial. Lancet. 2000; 355:2021-2026.
- Underwood BA, Arthur P. The contribution of vitamin A to public health. FASEB J. 1996; 10:1040-1048.
- Verhage AH, Cheong WK, Jeejeebhoy. Neurologic symptoms due to possible chromium deficiency in long-term parenteral nutrition that closely mimic metronidazole-induced syndromes. J Parenter Enter Nutr. 1996; 20:123-127.
- Vieth R. Vitamin D supplementation, 25-dihydroxyvitamin D concentrations and safety. Am J Clin Nutr. 1999; 69:842-856.
- Vincent J. The biochemistry of chromium. J Nutr. 2000; 130:715-718.
- Waggoner DJ, Bartnikas TB, Gitlin JD. The role of copper in neurodegenerative disease. Neurobiology of Disease. 1999; 6:221-230.
- West CE, Rombout JH, van der Zijpp AJ, Sijtsma SR. Vitamin A and immune function. Proc Nutr Soc. 1991 Aug;50(2):251-62.
- West KP Jr, Pokhrel RP, Katz J, et al. Efficacy of vitamin A in reducing preschool child mortality in Nepal. Lancet. 1991; 338:67-71.
- Young DB, Ma G. Vascular protective effects of potassium. Semin Nephrol. 1999; 19:477-486.
Why do children need to take a multivitamin?
Everyone needs vitamins and minerals, because they help release energy from our food and help build muscle, bone, blood and other vital tissue. Children need vitamins and minerals to maintain good health and normal growth. It is important to ensure that children receive all the vitamins and minerals they need every day, especially during their growing years. The body does not store all essential vitamins and minerals, therefore some need to be supplied on a regular basis.
Is there a specific time of day that is recommended for taking DNA Miracles Gummy Vitamins?
In general, any time of day is fine for taking DNA Miracles Gummy Vitamins. Whether in the mornings or the evenings, DNA Miracles Gummy Vitamins can be taken with a meal or on an empty stomach. However, it is good practice to have your children take it at the same time each day to develop a routine.
What is the serving size for DNA Miracles Gummy Vitamins? How many can my child take at one time?
While your children will love the taste of DNA Miracles Gummy Vitamins, we suggest following the recommended serving size according to the directions on the label.
What are common vitamins and minerals that often kids don’t get enough of through their diets?
Calcium, zinc and vitamins A, C and E, are some common vitamins and minerals that children generally don’t get enough of. Calcium is needed to form growing bones, and a proper calcium intake beginning at childhood can help maintain normal bone mass later in life. Zinc is a vital nutrient for proper growth and development. Vitamins A, C and E are also important vitamins during childhood and throughout life.
What are the main differences between DNA Miracles™ Gummy Vitamins, Isotonix Might-A-Mins® and Might-A-Mins Spectrum Isotonix® Multivitamin?
While Isotonix Might-A-Mins and Might-A-Mins Spectrum Isotonix Multivitamin provide their superior children’s multivitamin formulas in an isotonic solution, there are some children who prefer their vitamins in a more conventional form. DNA Miracles Gummy Vitamins provide great nutrients your children need to support their health in a convenient, fun and tasty gummy.
Can my children take DNA Miracles Gummy Vitamins in addition to other Might-A-Mins products?
An assortment of Might-A-Mins Spectrum products – Might-A-Mins Spectrum Probiotics, Might-A-Mins Spectrum Isotonix Digestive Enzymes, Might-A-Mins Spectrum Essential Omega 3 and Might-A-Mins Spectrum Isotonix OPC-3 – can be taken in addition to DNA Miracles Gummy Vitamins.