UPC: 040647006591
# 15659

Nourish Your Body's Bones and Muscles with Nature's Life Magnesium Malate

Nature's Life Magnesium Malate, a significant asset to your health regime, is a fusion of magnesium and malic acid. It is a potent supplement known for its extensive role in supporting overall health. Since time immemorial, Magnesium Malate has been harnessing its powers to provide nutritive support for maintaining the function of over 300 enzymes.

Magnesium, the core ingredient, plays a pivotal role in our bodies. It directly engages in muscle and nerve function, contributing to optimal physical performance. Malic acid, on the other hand, participates in energy production, thereby ensuring you stay active throughout the day.

Our customers primarily seek a product that will aid in muscle and nerve function. Magnesium Malate caters to this need by delivering the necessary support. It not only contributes to healthy muscle function but also promotes normal muscle relaxation after contraction. This supplement is thus a must-have for those seeking to boost their physical performance.

  • Supports Over 300 Enzymes: Magnesium Malate provides nutritional support for the maintenance of over 300 enzymes, essential for various biochemical reactions in the body.
  • Promotes Healthy Muscle and Nerve Function: This supplement aids in maintaining healthy nerve function and muscle relaxation after contraction.
  • Strengthens Bones and Teeth: It also provides nutritional support for strong, healthy bones and teeth.

Additional benefits include:

  • Enhances Energy Production: Malic Acid, a key ingredient in Magnesium Malate, plays a crucial role in the production of energy, keeping you active.
  • Maintains Heart Health: Regular intake of Magnesium Malate supports the heart, maintaining its healthy function.

Tips for using Magnesium Malate:

  • To reap maximum benefits, ensure a balanced, healthy diet along with regular intake of this supplement.
  • For optimal results, maintain consistency in its usage.

Step into the realm of robust health with Nature's Life Magnesium Malate. Why settle for less when you can have the best that nature has to offer? Add this exceptional supplement to your routine and experience a surge in your overall wellbeing. Act now! Embrace the power of nature with Nature's Life Magnesium Malate and elevate your health to a new level. Click on "Add to Cart" to begin your journey towards better health.

WARNING: Do not use if safety seal is broken or missing. Keep out of reach of children. Keep your licensed health care practitioner informed when using this product.DIRECTIONS: Use only as directed. Take one (1) tablet up to two times daily with food. Store in a cool, dry place.

Supplement Facts
Serving Size: 1 Tablet

Amount Per
Serving
% Daily
Value

Magnesium (from 1,300 mg Magnesium Malate)200 mg 48%

Malic Acid 930 mg *

* Daily Value not established.
Other Ingredients: Cellulose, Croscarmellose Sodium, Silica, Stearic Acid and Calcium Stearate.


Minerals are inorganic substances mined from the earth, meaning they are not of plant or animal origin. They exist naturally on and in the earth and many are critical parts of human tissue and are termed “essential” nutrients. Of the 92 naturally occurring elements, the 14 minerals that have been shown by research to be essential to human health are: calcium, chromium, copper, fluorine, iodine, iron, magnesium, manganese, molybdenum, phosphorus, potassium, selenium, sodium and zinc.*1 Essential macrominerals are those we need in significant quantities (such as calcium) – usually measured in milligrams, and essential trace minerals are those we need in minute quantities (such as selenium) – usually measured in micrograms (one microgram [mcg] equals 1/1,000th of a milligram [mg]).                      

These 14 essential minerals are crucial to the growth and production of bones, teeth, hair, blood, nerves, skin, vitamins, enzymes and hormones; and the healthy functioning of nerve transmission, blood circulation, fluid regulation, cellular integrity, energy production and muscle contraction.*

Minerals work in combination with each other and with other nutrients, so imbalances of any mineral can cause health problems – too little of any essential mineral can lead to deficiency diseases, and too much of any mineral can be toxic.2

We get these essential minerals primarily through the foods we eat.  Good sources of essential minerals include fruits, vegetables, meats, nuts, beans and dairy products.  Unfortunately, much of the soil in which food is grown has been depleted of these nutritive minerals, therefore the mineral content in food is reduced.3,4  We also obtain some minerals from the water we drink, but the amounts vary widely.

Mineral availability and absorption is also affected as foods are cooked, processed and refined, and many naturally occurring minerals in food are removed.5, 6 A daily mineral supplement is not a substitute for a healthy diet, but can ensure we get the minerals we need for optimal health.

MACRO MINERALS

CALCIUM

Calcium is the most important, and most common, mineral we need. Please see Nature’s Life Calcium Facts brochure for more information (code #21040).

IRON

Iron carries oxygen to the cells and is necessary for the production of energy, the synthesis of collagen, and the functioning of the immune system.* Iron deficiency is common only among children and pre-menopausal women. Great care must be taken not to take too much iron, as excess amounts are stored in the body’s tissues and adversely affect the body’s immune function, cell growth and heart health.*7, 8, 9  A blood test is the most effective way to determine needs, and consultation with a trained health professional is strongly recommended.

Iron absorption can be blocked by calcium, magnesium, manganese, zinc, antacids and tetracycline (a common antibiotic).2

Iron is found in meat, fish, beans, spinach, molasses, kelp, brewer’s yeast, broccoli and seeds. Because iron from plant sources is not as well absorbed as that from animal sources, some experts recommend that vegetarians supplement with, or eat foods high in, vitamin C as it enhances iron absorption.10

MAGNESIUM

Magnesium is essential to maintain both the acid-alkaline balance in the body and healthy functioning of nerves and muscles (including the heart), as well as to activate enzymes to metabolize blood sugars, proteins and carbohydrates.*2 

Magnesium is vital for proper bone growth and is indirectly related to adequate calcium absorption.*11  A 2:1 ratio of calcium to magnesium is essential to maintain strong bones.

Indications of a magnesium deficiency may be muscle twitches, nervousness, abnormal heart beat and disorientation.2

Good food sources of magnesium include seeds, unrefined grains, beans and other vegetables.

PHOSPHORUS

Most phosphorus in the body is found in bone, usually at a 1:2 ratio to calcium. In soft tissue and cells, phosphorus contributes to many natural chemical body processes.11 For example, phosphate bonds of ATP (adenosine triphosphate) provide the energy necessary for metabolism.11

Food sources of phosphorus include protein-rich foods such as meats and dairy products, although some is present in almost all foods. Due to the abundance available in the average diet, as well as its high absorption rate, most  supplements do not contain phosphorus. People taking aluminum hydroxide as an antacid for extended periods of time may develop a phosphorus deficiency since the aluminum prevents phosphorus absorption.11

ZINC

Zinc supports the health of the immune system, normal synthesis of protein, and the health of reproductive organs (especially in men).*2 Zinc deficiency is common, and can adversely affect normal physical growth, skin and nerve health, natural healing ability, and immune function, especially in infants.*12 Smoking and excessive alcohol consumption adversely affect zinc levels.13  Meats, fish, beans, whole grains, pumpkin seeds, mushrooms and brewer’s yeast are good food sources of zinc.

Too much zinc can lower copper retention, lower HDL (“good”) cholesterol,14 and impair immune function at dosages of 100 mg/day or more.*15,16 Adverse effects may occur if the balance of zinc to other minerals is not maintained.*2 

TRACE MINERALS

CHROMIUM

Chromium functions as part of several enzyme systems, including the glucose tolerance factor (GTF), which works with insulin in the utilization of glucose (blood sugar).* Insulin helps to control metabolism of triglycerides (the main form of fat in the body), therefore chromium has a positive effect on triglycerides due to its influence over insulin.* Chromium deficiency has been linked to improper metabolism and imbalances of blood sugar.* 18, 19  While popularly used as a supplement to achieve weight loss and muscle gain, research is not consistent enough to validate chromium’s effect for those benefits.*20, 21

According to the U.S. Department of Agriculture widespread chromium deficiency is due not only to inadequate food intake but also to excess sugar intake that increases chromium losses in the body.*22 The only common food source is brewer’s yeast.

Chromium should not be taken in excess however—there have been reported cases of toxicity when used in high doses (>800 mcg/day).1, 23

COPPER

Blood, nerves, joints, heart, skin, liver and both the immune and nervous systems all need adequate amounts of copper, most of which is concentrated in the brain and liver.* Copper is critical to the absorption and utilization of both zinc and iron.*24, 25 A deficiency of copper has been linked to an inability to produce the important antioxidant enzyme, superoxide dismutase (SOD), and to a shortage of red blood cells.*24, 25 

It is especially important to balance copper levels with those of zinc because an excess of either will depress retention and utilization of the other.* 26 Readily available through the diet, copper is commonly found in whole grains, nuts, shellfish, liver and dark green, leafy vegetables.

IODINE

Elemental iodine is essential to the development and functioning of the thyroid gland, and a deficiency can cause an enlargement of the gland.*27 Deficiency of iodine during pregnancy and infancy may lead to abnormalities in brain development and in children’s growth.*28 Iodized salt is the most common source of this essential trace mineral. Those with thyroid abnormalities should consult a health care practitioner before taking more than 150 mcg of iodine per day. For most people, amounts up to 1,000 mcg per day are safe, although some may be sensitive to it (resulting in skin irritations or difficulty breathing).

MANGANESE

The essential trace mineral manganese is necessary for normal bone metabolism and important enzyme reactions*28  It also helps maintain normal nerve, brain and thyroid function.2 While a deficiency of this mineral is uncommon, it is often lost in processed foods.29, 30 A deficiency of manganese may affect brain health, glucose tolerance, normal reproduction, and skeletal and cartilage formation.*31

Grains and cereal products are the best food sources of manganese, while animal products are the poorest. Toxicity from manganese is uncommon.11

MOLYBDENUM

Molybdenum is involved in the operation of several key enzymes in the body.* Readily available throughout the diet, deficiencies of this essential mineral are unusual, although rare deficiencies occur in people who suffer from malabsorption conditions.*32 

Milk, beans, cereals and bread are common food sources of molybdenum. Elevated levels of molybdenum can cause a loss of copper.* 11

SELENIUM

This powerful antioxidant works closely with vitamin E and supports critical antioxidant enzyme functions.*2 As an antioxidant, selenium may reduce the risk of abnormal cell growth,*33 while supporting cardiovascular health.*34 Seafood and organ meats such as liver and kidney are high in selenium, whereas selenium levels in grains and vegetables vary widely, depending on local soil content.35

No more than 200 mcg of selenium daily is recommended for general use, because of possible toxicity. Excessive intakes of selenium can affect the functioning of enzymes and normal bone and cartilage development in fetuses, according to animal studies. In milligram amounts (75 mg/day), selenium can cause nausea, loss of hair and nails, skin abnormalities and nerve damage.1

NON-ESSENTIAL TRACE MINERALS

Other trace minerals that have not yet been recognized by health authorities as essential to human nutrition, but have some valid health benefits are arsenic, boron, nickel, silicon and vanadium.*17

Boron — Valid clinical studies show that it is involved in the metabolism of other minerals, especially calcium and magnesium, that support bone health.*36  It may also be involved in the regulation and function of steroid hormones.*37 Readily available in prunes, soy, raisins, beans and nuts, boron’s benefits to human health are recent discoveries, just since the mid-1980s. Microgram amounts are not considered toxic.

Silicon — Silicon is important in the composition and calcification of cartilage to produce bone, and is common in unrefined foods of plant origin.*2

Vanadium — There is some scientific evidence that vanadium contributes to fat metabolism.*2, 38  Vanadium in microgram dosages has low potential for toxicity.39

ELECTROLYTES

     Electrolytes are the elements necessary for electrochemical activity in our body. Water (H20) – and the three minerals sodium, potassium and chloride are all necessary for the transmission of electrical impulses between cells. Sodium and potassium are cations (positively charged atoms), and chloride is an anion (negatively charged atom) – all are essential nutrients. These minerals are supplied by the typical diet in thousands of milligrams per day. Sodium and chloride are overabundant in the diet and are not generally added as a mineral supplement.

POTASSIUM

Potassium is the major mineral in, and primary regulator of, fluids inside cells – along with sodium.*11 Potassium is critical to the transmission of nerve impulses, muscle contractions and maintenance of normal blood pressure.*11 The kidneys control potassium levels, if adequate water is consumed.2

Potassium deficiency is rare in healthy people – but is a very common side effect of two widely abused modern drugs – chemical laxatives and diuretics. Potassium deficiency can also be caused by excessive vomiting, chronic diarrhea or kidney failure. Signs of deficiency may include muscle weakness, intestinal problems, heart abnormalities and respiratory weakness.2

Potassium is widely available in foods, but mostly in unprocessed fresh foods – especially fruits and vegetables. The estimated average adult intake of potassium varies widely between 1,000 and 10,000 mg daily, depending on diet (vegetarians get the most).40,41,42,43,44  Potassium is toxic for healthy adults if daily intakes exceed 18,000 mg.45 Pills with more than 100 mg, if taken on an empty stomach and without sufficient water, may cause ulcerations in the stomach or esophagus. Therefore Nature’s Life only offers potassium supplements in amounts of < 99 mg.

Nature’s Life-sustaining minerals are bonded to organic substances for maximum absorption. Different chelating and complexing agents are used to create the most bioavailable forms possible, and to offer people a choice. Nature’s Life offers single minerals as well as doctor-formulated combinations to help you stay as healthy as possible. Eat a healthy diet of minimally processed fresh foods but take Nature’s Life minerals to assure your optimal health.

References:

  1. The Merck Manual®. Merck Research Laboratories:  Whitehouse Station, NJ, 1997.

  2. Shils ME, Olson JA, Shike M, et al. Modern nutrition in health and disease, 9th ed. Baltimore, MD: Williams & Wilkins, 1999.

  3. Wauchope RD. Selenium and arsenic levels in soybeans from different production regions of the United States. J Agric Food Chem 1978;26:226-8.

  4. Lappalainen R, et al. The concentration of zinc and Mg in human enamel and dentine related to age the their concentration in the soil. Arch Oral Biol 1981;26:1-6.

  5. Reddy MB, Love M The impact of food processing on the nutritional quality of vitamins and minerals. Adv Exp Med Biol 1999;459:99-106.

  6. Schroeder HA. Losses of vitamins and trace minerals resulting from processing and preservation of foods. Am J Clin Nutr 1971;24:562-73.

  7. Tzonou A, et al. Dietary iron and coronary heart disease risk: a study from Greece. Am J Epidemiol, 1998;147:161-166.

  8. Fleming DJ. Dietary determinants of iron stores in a free-living elderly population: The Framingham Heart Study. Am J Clin Nutr 1998;67:722-733.

  9. Halliday JW. Hemochromatosis and iron needs. Nutr Rev 1998;56:S30-S37.

  10. Craig WJ. Iron status of vegetarians. Am J Clin Nutr 1994;59:1233S-1237S.

  11. Food and Nutrition Board, National Research Council. Recommended Dietary Allowances, 10th ed. Wash. DC: National Academy Press, 1989.

  12. Sandstead HH. Understanding zinc: recent observations and interpretations. J Lab Clin Med 1994;124:322-327.

  13. Schauss A. (White Paper) Minerals, Trace Elements & Human Health. Life Sciences Press: Tacoma, WA, 1995;2-23.

  14. Hooper PL, Visconti L, Garry PJ, et al. Zinc lowers high-density lipoprotein-cholesterol levels. JAMA 1980;244:1960-1.

  15. Sandstead HH. Requirements and toxicity of essential trace elements, illustrated by zinc and copper. Am J Clin Nutr 1995;61(suppl):621S–24S.

  16. Chandra RK. Excessive intake of zinc impairs immune responses. JAMA 1984;252:1443-6.

  17. Nielsen FH. Ultratrace minerals. In: Shils ME, Olson JA, Shike M, Ross AC. Modern nutrition in health and disease, 9th ed. Baltimore, MD: Williams & Wilkins, 1999:283-303.

  18. Anderson RA. Chromium metabolism and its role in disease processes in man. Clin Physiol Biochem 1986;4:31-41.)

  19. Davies S, McLaren Howard J, Hunnisett A, et al. Age-related decreases in chromium levels in 51,665 hair, sweat, and serum samples from 40,872 patients—implications for the prevention of cardiovascular disease and type II diabetes mellitus. Metabolism 1997;46:469-73.

  20. Bahadori B, et al. Effect of chromium yeast and chromium picolinate on body composition of obese, non-diabetic patients during and after a formula diet.  Acta Med Austriaca 1997;24:185-187.

  21. Anderson RA. Effects of chromium on body composition and weight loss. Nutr Rev 1998;56:266-70.

  22. Anderson RA. Recent advances in the clinical and biochemical effects of chromium deficiency. Prog Clin Biol Res 1993;380:221-234.

  23. Cerulli J, et al.  Chromium picolinate toxicity. Ann Pharmacother 1998 Apr;32:428-431.

  24. Danks DM. Copper deficiency in humans. Annu Rev Nutr 1988;8:235-57.

  25. Jones AA, DiSilvestro RA, Coleman M, et al. Copper supplementation of adult men: effects on blood copper enzyme activities and indicators of cardiovascular disease risk. Metabolism 1997;46:1380-3.

  26. Sandstead HH. Requirements and toxicity of essential trace elements, illustrated by zinc and copper. Am J Clin Nutr 1995;61(suppl):62S–64S.

  27. Taber’s Cyclopedic Medical Dictionary. F.A. Davis Company: Philadelphia, PA.

  28. Wasantwisut, E. Nutrition and development: other micronutrients’ effect on growth and cognition. Southeast Asian J Trop Med Public Health 1997;28 Suppl 2:78-82.

  29. Kimura M, Itokawa Y. Cooking losses of minerals in foods and its nutritional significance. J Nutr Sci Vitaminol (Tokyo) 1990;36:S25-33.

  30. Pennington JAT. Bowes and Church’s Food Values of Portions Commonly Used, 17th ed. Philadelphia, PA: Lippincott Williams & Wilkins, 1997.

  31. Keen CL, Ensunsa JL, Watson MH, et al. Nutritional aspects of manganese from experimental studies. Neurotoxicology 1999;20:213-23.

  32. Sardesai VM. Molybdenum: an essential trace element. Nutr Clin Pract 1993;8:277-281.

  33. Clark LC, Combs GF, Turnbull BW, et al. Effects of selenium supplementation for cancer prevention in patients with carcinoma of the skin. JAMA 1996;276:1957–63.

  34. Korpela H, Kumpulainen J, Jussila E, et al. Effect of selenium supplementation after acute myocardial infarction. Res Commun Chem Pathol Pharmacol. 1989;65:249-252.

  35. Wauchope RD. Selenium and arsenic levels in soybeans from different production regions of the United States. J Agric Food Chem 1978;26:226-8.

  36. Nielsen FH, Studies on the relationship between boron and magnesium which possibly affects the formation and maintenance of bones. Magnes Trace Elem 1990;9:61-69.

  37. Naghii MR, Samman S. The role of boron in nutrition and metabolism. Prog Food Nutr Sci 1993;17:331-49.

  38. Harland BF, Harden-Williams BA. Is vanadium of human nutritional importance yet? J Am Diet Assoc 1994;94:891-4.

  39. Barceloux DG. Vanadium. J Toxicol Clin Toxicol 1999;37:265-78.

  40. National Research Council. Diet and Health: Implications for Reducing Chronic Disease Risk. Report of the Committee on Diet and Health, Food and Nutrition Board. National Academy Press, Washington, D.C. 1989;750.

  41. Pennington JAT, Wilson DB, Newell RF, et al. Selected minerals in food surveys, 1974 to 1981/82. J Am Diet Assoc. 1984;84:771-780.

  42. Khaw KT, Barrett-Connor E. Dietary potassium and stroke-associated mortality. A 12-year prospective population study. N Engl J Med. 1987;316:235-240.

  43. Grim CE, Luft FC, Miller JZ, et al. Racial differences in blood pressure in Evans County, Georgia: relationship to sodium and potassium intake and plasma renin activity. J Chronic Dis 1980;33:87-94.

  44. Langford HG. Dietary potassium and hypertension. In: Horan MJ, Blaustein M, Dunbar JB, Kachadorian W, Kaplan NM, and Simopoulos AP, eds. NIH Workshop on Nutrition and Hypertension: Proceedings from a Symposium. Biomedical Information Corp., New York 1985;147-53

  45. Food and Nutrition Board, National Research Council. Recommended Dietary Allowances, 9th ed. Washington, DC: National Academy Press, 1980:185.

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