Search Term: " GLYCINAE "
Magnesium Glycinate: An In-Depth Guide
Date:
November 04, 2023 10:53 AM
Magnesium Glycinate: An In-Depth GuideMagnesium is an essential mineral for the body, playing a crucial role in the regulation of blood pressure and numerous other bodily functions. The shortcoming of this nutrient can be addressed through the consumption of magnesium glycinate, a supplement also known as magnesium diglycinate and magnesium bisglycinate. Key Roles of Magnesium
This article delves into the details of magnesium glycinate, looking at its benefits, potential side effects, the recommended dosage, and more. Benefits of Magnesium GlycinateThe human body needs a significant amount of magnesium for optimal function. Although the best way to obtain nutrients is in their natural form, supplements like magnesium glycinate are available to enhance magnesium intake in individuals with low levels. Benefits of this supplement include:
Precautionary Measures
Conditions that may Benefit from Magnesium Glycinate
Sources of Magnesium Glycinate Nutritional sources rich in magnesium include legumes, nuts, seeds, whole grains, spinach, fortified breakfast cereals, yogurt, milk, and other dairy products. Recommended Dosage The amount of magnesium glycinate to be taken can vary. It is advised to consult a doctor before starting a magnesium glycinate regimen. Potential Side Effects Magnesium glycinate, like other dietary supplements, can cause side effects such as nausea, abdominal cramps, and diarrhea when taken in large or frequent doses. However, a study from 2013 indicated that magnesium glycinate is less likely to induce diarrhea compared to other magnesium supplements. Extreme doses could lead to magnesium toxicity, resulting in more severe side effects. Easy Ways to Consume More Magnesium One effective method of increasing magnesium intake is by incorporating dietary supplements into your daily regime. For instance, Solaray Magnesium Glycinate is a popular supplement that is widely recognized for its efficacy. It is an easily digestible form of magnesium that is gentle on the stomach and less likely to induce diarrhea. Solaray's supplement provides an accessible option for those looking to supplement their diet with magnesium, especially for individuals who might struggle to meet their nutritional requirements through diet alone. Conclusion Magnesium glycinate can be a beneficial supplement for individuals with magnesium deficiency. However, caution must be exercised in its consumption, with potential side effects and individual health conditions taken into account. As always, it is best to seek medical advice before starting a new supplement regimen.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=6587) Source Naturals' Ultra Mag: A Balanced Magnesium Blend for Optimal Health
Date:
July 19, 2023 10:57 AM
Have you ever experienced muscle cramps or fatigue? These are some of the common symptoms of magnesium deficiency. Magnesium is a vital mineral that plays a crucial role in various body functions. Of the many brands of magnesium supplements available, Source Naturals Ultra Mag stands out due to its balanced blend of different magnesium forms known to have high bioavailability and absorption. What is Ultra Mag? Ultra Mag is a magnesium supplement that contains a combination of different forms of magnesium, including magnesium taurinate, citrate, succinate, malate, and chelate(glycinate). This combination provides a balanced source of magnesium to the body with high bioavailability and absorption. What are the benefits of taking magnesium? Magnesium plays a crucial role in various body functions, including nerve and muscle function, bone health, and heart health. Ultra Mag helps in producing and storing energy (ATP), allowing muscles to relax, activating over 300 metabolic enzymes, controlling calcium levels in bones and teeth, and regulating electrical activity in nerve cells. Additionally, Ultra Mag supports healthy sleep patterns, helps alleviate stress and anxiety, and supports the immune system. Is magnesium safe? Yes, magnesium is safe when taken as recommended. However, as with any dietary supplement. To much magnesium may cause loose stool and it is essential to consult with a healthcare professional before taking it, especially if you have a medical condition or are taking other medications that prohibit magnesium consumption. Why choose Source Naturals Ultra Mag? Source Naturals is a well-known and respected brand that guarantees quality supplements. The company uses high-quality ingredients to ensure their products are safe, effective, and most importantly, beneficial to consumers. Additionally, Ultra Mag is free from gluten, soy, dairy, and artificial preservatives. It is manufactured in GMP (Good Manufacturing Practice) facilities to maintain purity and quality. If you're looking for a magnesium supplement to support your overall health and well-being, consider trying out Source Naturals Ultra Mag. Your body will thank you for it!
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=6579) What Are The Health Benefits Of Magnesium Glycinate?
Date:
March 12, 2013 11:58 AM
Magnesium Glycinate is derived from the attachment of magnesium to glycine. The health benefits of Magnesium glycinate are many. Naturally, the body needs magnesium to function properly. If the magnesium levels in our blood are less than normal, it is necessary to take magnesium glycinate supplement. When the amount of magnesium in the human body is very low, it may lead to various ailments. Likewise, excessive intake of this nutrient may lead to fatigue, vomiting, nausea, diarrhea etc. Let us consider some of the health benefits of this supplement: Prevent High blood pressure Medical Experts believe that consuming a large amount of this supplement can help prevent or reduce the effect of high blood pressure. Individuals who are already suffering from high blood pressure can take this supplement to reduce hypertension. Increase Levels of HDL HDL stands for good cholesterol. This supplement can also help reduce levels of bad cholesterol and increase levels of good cholesterol. Improve Sleep Quality People who have low levels of magnesium may find it difficult to sleep. If you are yet to achieve a more restful sleep, perhaps you can take this supplement. Those who are struggling with restless leg syndrome may also find this supplement helpful. Mood enhancer Magnesium glycinate supplement can help balance your mood swings. According to the author of "Healing Depression Naturally" Lewis Harrison, magnesium has the ability to regulate neurotransmitter receptor sites. Harrison emphasizes on the use of magnesium glycinate as a good treatment for depression. He stated that magnesium glycinate helps to remove mercury from the body, which can lead to emotional stability. However, this claim is based on anecdotal evidence and not clinical studies. Notwithstanding, some persons have achieved success using this supplement to treat depression. Therefore, if you are struggling with fatigue, sleeplessness, depression, high blood pressure and high bad cholesterol levels, then this supplement is for you.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=2829) What Vitamins And Minerals Are For Mental Alertness?
Date:
August 29, 2011 10:33 AM
There are many vitamins and minerals which can help improve the health and functioning of the nervous system. Vitamins and minerals are significantly involved in many biological processes of the body. It influences the activities of the organs of the body including the brain. In fact, deficiencies on vitamins and minerals may result to psychological or even psychiatric symptoms in certain individuals. People with psychiatric problems are also prescribed with vitamin and mineral supplements which serve as one of its conventional treatment. The vitamins and minerals which are good for the improvement of brain function and improvement of mental alertness are the following: 1. THIAMINE OR VITAMIN B1. Generally, insufficient amount of this enzyme may result to mild psychiatric symptoms. Studies revealed that people with inadequate amount of this vitamin has the symptoms of fearfulness, anxiety, depression, agitation and behavioral instability. This vitamin is necessary for the activity the body’s enzyme called pyruvate dehydrogenase. This enzyme is required for the conversion of pyruvate to acetyl – coenzyme A. If pyruvate is not catalyzed into acetyl – coenzyme A, the excess pyruvate in the body might be converted into lactate which can cause muscle pains and also psychiatric symptoms such as anxiety. Deficiency of this vitamin must be suspected when the person is alcoholic or malnourished. 2. RIBOFLAVIN OR VITAMIN B2. This vitamin is closely associated with major depression in relation to oxidative stress. Riboflavin is required for the metabolism of protein, fats and carbohydrates. The building blocks of these macronutrients are important for the maintenance of brain health and proper functioning of the nervous system. It can improve the energy levels and functioning of the brain, thus improving an individual’s mental alertness. 3. PYRIDOXINE OR VITAMIN B6. Studies show that low level of vitamin B6 is directly related to depression. Inside the body, pyridoxine is converted into its biochemical active form called pyridoxal phosphate which is important for mental alertness and brain functioning. Pyridoxine acts as a coenzyme involved in the synthesis of brain chemicals such as serotonin, dopamine and gamma aminobutyric acid (GABA). This vitamin is also involved in the metabolism of carbohydrates and amino acids which are essential for boosting energy levels. 4. COBALAMIN OR VITAMIN B12. Deficiency of this vitamin is closely related to decrease mental functioning. Vitamin B12 is a cofactor of the enzyme methionine synthase which is important in the conversion of homocysteine to methionine. This is required for the production of energy in fatty acids and proteins which is important for the methylation reactions of brain chemicals. 5. VITAMIN C. This vitamin is considered to be a cofactor of the neurotransmitter dopamine and is involved in the conversion of dopamine to norepinephrine. These brain chemicals are important for the maintenance of proper mental alertness. 6. FOLATE. Decreased mental alertness and depression is a common symptom of low levels of folate in the body. This mineral is involved in the methylation and synthesis of DNA. It is important for the development of brain function and improvement of mental alertness. 7. MAGNESIUM. This mineral is involved in many reactions of the body. Individuals with decreased mental alertness are found to have low levels of magnesium in their cerebrospinal fluids. 8. ZINC. This is a mineral which is important in the catalyses of many enzyme sin the body. It is found in high amount in the brain which is important for nervous activities.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=2411) Zinc Glycinate For Prostate Health
Date:
August 05, 2009 06:48 PM
Now Zinc Glycinate is chelated to help improve absorption and bioavailability, compared to many of other forms of zinc, which can be difficult to properly absorb. For additional support, Now Foods enhanced this new formula with pumpkin seed oil (Cucurbitae Pepo) – nutritional oil that’s rich in essential fatty acids. Pumpkin seed oil serves as a healthy synergist that is known for its high phytosterols content. Scientific studies show that the phytosterols present in pumpkin seed oil provide support for a healthy prostate. Together, this unique combination of nutrients is ideal for men over 30 looking to take charge of their prostate health. According to the Center for Disease Control (CDC), an estimated one out of every three men will experience some form of prostate-related challenge in their lifetime. This makes it important for aging males to take proactive prostate support measures, even at younger ages. Many studies have been conducted to determine how and what a man can do to naturally support optimal prostate function. What researchers now know is that zinc plays a key role in healthy prostate function. In addition to extracts such as saw palmetto, lycopene, and stinging nettle, zinc has shown great promise in supporting normal prostate activity. When it comes to prostate health, men over thirty can not afford to leave anything to change. This unique form of chelated zinc has been shown in scientific studies to exhibit superior bioavailability. Product possesses: • 30 mg Albion TRAACS zinc per serving • Chelated to improve absorption and bioavailability • Contains pumpkin seed oil for added support • Shown to help support healthy prostate function
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=2047) The Awesome Foursome: Coenzyme Q10, D-Ribose, L-Carnitine, and Magnesium
Date:
May 18, 2007 01:06 PM
The Awesome Foursome: Coenzyme Q10, L-Carnitine,
D-Ribose, Magnesium
The “Awesome Foursome” of Coenzyme Q10, L-Carnitine, D-Ribose, and magnesium helps our hearts metabolize energy more efficiently and protects them from the stress of cardiovascular disease. This powerful combination of nutrients goes directly to the basic biochemistry of cellular energy metabolism. Now let’s take a closer look at how Coenzyme Q10, L-Carnitine, D-Ribose, and magnesium work in synergy to promote cardiovascular health.
Coenzyme Q10:
Energy Recycling through the Electron Transport Chain
Coenzyme Q10 is a powerful antioxidant that helps protect the mitochondrial membrane, mitochondrial DNA, and cell walls from free-radical attack. But its most important function in the body is its central role in energy metabolism.
Most – about 90 percent – of the ATP used by cells is recycled as food (fuel) and oxidized in the mitochondria. Fatty acids, carbohydrates, and, occasionally, proteins are carried across the mitochondrial membrane and enter the Krebs’ cycle, moving from step to step and spinning off electrons. These electrons are then handed off to the electron transport chain, where, in the presence of oxygen, the energy from the electrons is captured as a phosphate group is added to ADP to form ATP. This recycling of ATP is called oxidative phosphorylation, and the by-products of these pathways are CO2 and water.
In this fashion, Coenzyme Q10 acts as a gatekeeper of electrons, making sure they are carried to just the right place to pass on their life-giving energy.
What is critical, however, is the simple fact that without Coenzyme Q10 the electron transport chain would totally break down. And since the electron transport chain is (by far!) the largest contributor to cellular energy turnover, its loss would be catastrophic. It is also important to know that there has to be an excess of Coenzyme Q10 in the mitochondria to be maximally effective. Having just enough isn’t sufficient to do the job properly, and having a deficiency seriously affects the mitochondria’s ability to supply the cell with energy.
Cellular stress can cause Coenzyme Q10 deficiency, which places a severe strain on Coenzyme Q10 availability. People with heart disease, hypertension, gingival disease, Parkinson’s disease, and the other disorders we’ve discussed are known to be deficient in Coenzyme Q10. Whether these deficiencies are the cause or the effect of these varied medical problems, the end result is that they sap the life out of their mitochondria and reduce their energy supplies. You see, Coenzyme Q10 cannot function properly if electrons are not coming out of the Krebs’ cycle, and the Krebs’ cycle won’t work without the fuel that’s transported into the mitochondria by L-Carnitine.
L-Carnitine:
Transporting the Cellular Energy Fuel
Fatty acids are the preferred energy fuel for hearts and most other cells in the body. L-Carnitine facilitates the beta oxidation of fatty acids as energy fuel. And since fatty acids are the preferred fuel for energy recycling in cells, this action is critical to cell and tissue function. Unfortunately, L-carnitine is deficient in people with heart disease, peripheral vascular disease, lipid metabolic disorders, mitochondrial disorders, and many other disease syndromes we reviewed earlier. This L-carnitine deficiency disrupts the normal metabolism of fatty acids, reducing available energy supplies and leading to the accumulation of toxic by-products of fatty acid metabolism. L-carnitine supplementation revives fatty acid metabolism and restore normal mitochondrial function. But even this powerful improvement in cellular energy metabolism cannot up for the energy drain that comes from the loss of energy substrates caused by low oxygen delivery to the tissue. Only D-Ribose can do that.
D-Ribose:
Rebuilding the Cellular Energy Pool
As long as cells and tissues have plenty of oxygen, the pool of energy substrates in the cell remains high. And as long as there is enough L-carnitine and Coenzyme Q10 available, the process of energy utilization and supply can proceed unimpeded. However, the cellular supply of oxygen can be restricted by acute or chronic heart disease, peripheral vascular disease, any number of skeletal – or neuromuscular diseases, or even high-intensity exercise.
When cells are deprived of oxygen the mitochondrial energy turnover becomes inefficient. Remember, oxygen is required to let the oxidative pathway of energy recycling work properly. If the mitochondria are not able to recycle energy efficiently, cellular energy supply cannot keep pace with demand. But the cell has a continuing need for energy so it will use all its ATP stores and then break down the by-product, adenosine diphosphate (ADP), to pull the remaining energy out of this compound as well. What’s left is adenosine menophosphate (AMP). Since a growing concentration of AMP is incompatible with sustained cellular function it’s quickly broken apart and the by-products are washed out of the cell. The net result of this process is a depletion of the cellular pool of energy substrates. When the by-products of AMP catabolism are washed out of the cell, they are lost forever. It takes a long time to replace these lost energy substrates even if the cell is fully perfused with oxygen again.
Ribose is the only compound used by the body to refill this energy pool. Every cell in the body has the capacity to make ribose, but hearts, muscles, and most other tissues lack the metabolic machinery to make ribose quickly when the cells are stressed by oxygen depletion or metabolic insufficiency. Ribose is made naturally in the cells from glucose. In stressed cells, however, glucose is preferentially metabolized for the energy turnover and is not available for ribose synthesis. So when energy pools are drained from stressed cells, the cells must first wait for the slow process of ribose synthesis before they can begin to replace their lost energy stores.
Acute ischemia, like that which takes place during a heart attack, heart surgery, or angioplasty, drains the cell of energy. Even when oxygenated blood flow returns, refilling the energy pool may take ten or more days. But when oxygen deprivation is chronic, or when energy metabolism is disrupted by disease, there may be so much continual strain on the energy supply that the pool can ever refill without the assistance of supplemental ribose. Conditions like ischemic heart disease or congestive heart failure fall into this category. In these situations, supplementing the tissue with exogenous ribose is the only way the cell can keep up with the energy drain.
Magnesium:
Switching on the Energy Enzymes
Magnesium is an essential mineral that's critical for energy requiring processes, in protein synthesis, membrane integrity, nervous tissue conduction, neuromuscular excitation, muscle contraction, hormone secretion, maintenance of vascular tone, and in intermediary metabolism. Deficiency may lead to changes in neuromuscular, cardiovascular, immune, and hormonal function; Impaired energy metabolism; and reduced capacity for physical work. Magnesium deficiency is now considered to contribute to many diseases, and the role for magnesium as a therapeutic agent is expanding.
Magnesium deficiency reduces the activity of important enzymes used in energy metabolism. Unless we have adequate levels of magnesium in our cells, the cellular processes of energy metabolism cannot function. Small changes in magnesium levels can have a substantial effect on heart and blood vessel function. While magnesium is found in most foods - particularly vegetables - deficiencies are increasing. Softened water and a trend toward lower vegetable consumption are the culprits contributing to these rising deficiencies.
Supporting the Links in The Energy Cycle Chain – the Synergy
Clearly, each membrane of the “Awesome Foursome” is fundamental to cellular energy metabolism in its own right. Each plays a unique and vital role in supplying the heart with the energy it needs to preserve its contractile force. Each is independently effective in helping hearts work through the stress of disease. And while each contributes immeasurable to the energy health of the cell, in combination they are unbeatable. Allow me to reiterate the step-by-step, complicated cellular processes involved to be sure that you really understand the rationale for using these nutrients.
The cell needs a large, sustained, and healthy pool of energy to fuel all its metabolic functions. Contraction, relaxation, maintenance of cellular ion balance, and synthesis of macromolecules, like proteins, all require a high energy charge to carry their reactions to completion. The energy pool must be preserved, or these fundamental cellular functions will become inefficient or will cease to operate altogether. To keep the pool vibrant and healthy, the cell needs ribose. But even with supplemental ribose, the cell needs the efficient turnover of its energy stores to balance ongoing energy utilization with supply. That’s where CoQ10 and L-carnitine come into play.
The converse is also true. Even if the cell is fully charged with energy, cellular energy supply will not keep pace with demand if the mitochondria are not functioning properly. CoQ10 and L-carnitine work to keep mitochondrial operations running at peak efficiency, and one side cannot work effectively without the other. Even though CoQ10 and L-carnitine can make the energy turnover mechanisms work more efficiently, they cannot increase the cell’s chemical driving force, and their action will be only partially effective. Ribose on the other hand, can keep the energy pool supplied with substrate, but the value of energy pool repletion cannot be fully realized if the substrate cannot be maximally utilized and recycled. Ribose fills the tank; CoQ10 an L-carnitine help the engine run properly.
Magnesium is the glue that holds energy metabolism together. By turning on the enzymes that drive the metabolic reactions, magnesium allows it all to happen.
These four nutrients must be utilized by cardiologists and other physicians as they treat patients day-to-day. On my own journey, using Coenzymes Q10 for two decades, L-carnitine for more than ten years, D-Ribose for two years, and magnesium equally as long, I’ve seen this “Awesome Foursome” reduce suffering and improve the quality of life for thousands of patients.
The future of nutrition in conventional medicine is very bright, although the integration of nutritional supplements has been a slow and, at times, lonely process.
L-carnitine and Coenzyme Q10 are finally gaining the recognition they deserve. D-Ribose is emerging as a new player in the complex understanding of metabolic cardiology, and doctors are beginning to discuss the important role of magnesium deficiency in heart patients. As a practicing cardiologist for over thirty years, I see metabolic cardiology as the future for the treatment of heart disease and other complex disease conditions, as well.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1539) Triple Boron - Activate the Bone-Building Basics
Date:
September 19, 2006 06:15 PM
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1394) Benefits of Total Daily Formula
Date:
October 13, 2005 04:45 PM
Benefits of Total Daily Formula All fruits and vegetables contain carotenes, the plant pigments responsible for the rich variety of colors we enjoy in the natural world. Beta carotene is the most familiar member of the carotene family. But beta carotene never exists by itself; it is always found with other carotenes in foods. We need more than just beta carotene alone. Carotenes are powerful antioxidants, which means they help reduce the body's free radical burden. Research suggests that carotenes work as a team to keep us healthy.5 Total Daily Formula provides beta carotene, alpha carotene, lutein, lycopene, zeaxanthin and cryptoxanthin from natural sources such as algal extracts, carrot oil, marigold and tomatoes (Caromix®). Total Daily Formula uses only corn-free vitamin C (ascorbic acid). The full daily intake of 6 tablets provides an exceptionally generous 800 mg of vitamin C. Total Daily Formula supplies ample amounts of all essential B vitamins. Vitamin B3 is given as niacin plus an extra helping of niacinamide, the non-flush form of this important vitamin. The body uses pantothenic acid (vitamin B5) to deal with stress, so the formula provides 150 mg, which is 15 times the RDA. Vitamin B6 is another B vitamin people may run short of, so 60 mg -- 30 times the RDA -- is supplied. The formula contains 800 mcg of folic acid, the vitamin now recognized by the FDA as essential for prevention of neural tube defects in unborn babies. Folic acid also helps prevent accumulation in the body of homocysteine, a metabolite of the amino acid methionine.6 A high blood homocysteine level is now considered to be a risk factor for heart disease.7 Flavonoids, also known as "bioflavonoids." are plant pigments widely distributed throughout the plant kingdom.8 Previously known as "Vitamin P," because they help reduce capillary permeability (leakiness) flavonoids are now regarded as "semi-essential" non-vitamin nutrients that benefit health in a variety of ways.9 In addition to maintaining the structure of blood vessels, flavonoids function as versatile antioxidants. Flavonoids protect vitamin C from destruction by free-radicals, helping to preserve the body's vitamin C supply.10 Total Daily Formula provides 100 mg of pure flavonoids from 112 mg of citrus extract. Three superior sources of Calcium Total Daily Formula contains three of the best absorbed and most effective forms of calcium available. MCHC (microcrystalline hydroxyapatite concentrate) is a naturally-derived compound composed of calcium, plus all the minerals and organic factors in living bone tissue. MCHC has been clinically shown to benefit bone health.11 Calcium citrate malate is a very well-absorbed form of supplemental calcium shown in recent research to be helpful for postmenopausal women.12,13 Calcium glycinate is chelated with the amino acid glycine, one of the most efficient mineral carriers for effective absorption.14,15 Magnesium is essential for strong bones and healthy hearts. This versatile mineral also regulates nerve function, keeps muscles relaxed and coordinates activity of over 300 enzymes in the body.16 Total Daily Formula contains 100 percent magnesium glycinate for exceptional absorption and gentleness on the intestinal tract.17 Magnesium glycinate has been clinically tested on people with severe malabsorption with excellent results.18 Total Daily Formula provides - in addition to zinc, chromium, selenium and iodine - vanadium and molybdenum. Vanadium helps maintain normal blood sugar.19 Molybdenum works as a co-factor for enzymes that help detoxify and eliminate foreign substances from the body.20 Bioperine® for Enhanced Absorption Bioperine® is a natural extract derived from black pepper that enhances nutrient absorption. Preliminary trials on humans have shown significant increases in the absorption of nutrients consumed along with Bioperine®. 21 Betaine HCL - supplies HCL (hydrochloric acid) to assist digestion. All natural tablet coating made of vegetable concentrate and beta carotene.
Scientific References 2. Morgan, K.J. et. al. Magnesium and calcium dietary intakes of the U.S. population. Journal of the American College of Nutrition. 1985;4:195-206. 3. Lakschmanan, F.L., Rao, R.B., Kim, W.W., Kelsay, J.L. Magnesium intakes, balances and blood levels of adults consuming self-selected diets. American Journal of Clinical Nutrition 1984;40:1380-89. 4. Mertz, W. The Essential Trace Elements. Fed. Proc. 1970;29:1482. 5. Perry, G. Byers, T. Dietary carotenes, vitamin C and vitamin E as protective antioxidants in human cancers. Annu. Rev. Nutr. 1992;12:139-59. 6. Landgren, F., et. al. Plasma homocysteine in acute myocardial infarction: Homocysteine-lowering effect of folic acid. J Int Med 1995;237:381-88. 7. Clarke, R., et. al. Hyperhomocysteinemia: an independent risk factor for vascular disease. New Eng J Med 1991;324:1149-55. 8. Havsteen, B. Flavonoids, a class of natural compounds of high pharmacological potency. Biochemical Pharmacology 32(7):1141-48. 9. Middleton, E. The flavonoids. TIPS 1984; 5:335-38. 10. Roger, C.R. The nutritional incidence of flavonoids: some physiological and metabolic considerations. Experientia 44(9):725-804. 11. Dixon, A. St. J. Non-hormonal treatment of osteoporosis. British Medical Journal 1983;286(6370):999-1000. 12. Smith, K.T. et. al. Calcium Absorption from a new calcium delivery system (CCM). Calcif Tissue Int 1987;41:351-352. 13. Dawson-Hughes, B. et. al. A controlled trial of the effect of calcium supplementation on bone density in postmenopausal women. New England Journal of Medicine 1990 Sep 27;323(13):878-883. 14. Albion Research Notes Vol. 4, No. 1, ©Albion Laboratories Jan,1995. 15. Ashmead, H.D. Intestinal Absorption of Metal Ions and Chelate, Springfield: Charles C Thomas, ©1985. 16. Wester, P.O., Dyckner, T. The importance of the magnesium ion. Magnesium deficiency-symptomatology and occurrence. Acta Med Scand 1992; (Suppl) 661:3-4. 17. Albion Research Notes Vol. 3, No. 1, ©Albion Laboratories, Feb 1994. 18. Schutte, S., et. al. Bioavailability of Mg diglycinate vs MgO in patients with ileal resections. Abstract 115, AJCN 1992;56(4). 19. Cohen, N. et. al. Oral vanadyl sulfate improves hepatic and peripheral insulin sensitivity in patients with non-insulin-dependent diabetes mellitus. J. Clin Invest 1995; 95:2501-09. 20. Sardesi, V.M. Molybdenum: An essential trace mineral element. Nutr Clin Pract 1993; 8:277-81. 21. Bioperine® - Nature's Bioavailability Enhancing Thermo-nutrient. Executive Summary' 1996; Sabinsa Corporation, Piscataway, N.J.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=839)
Date:
October 06, 2005 10:08 PM
Magnesium is a dietary mineral with a wide array of biological activities in the body. Magnesium participates in numerous life-essential processes that occur both inside and outside cells. Magnesium deficiency impacts normal physiologic function on many levels. Adequate magnesium is a fundamental requirement for optimum function of the cardiovascular system, the nervous system and skeletal muscle, as well as the uterus and GI tract. Magnesium deficiency can affect health of the heart, bones and blood vessels and alter blood sugar balance [1]. Magnesium–Important for Everyone, Deficient in Many The average person living in a modern country today very likely consumes less than the optimum amount of magnesium [2]. An abundance of data collected over the last two decades shows a consistent pattern of low magnesium intake in the U.S. This pattern cuts a wide swath across various age-sex groups. The USDA’s Nationwide Food Consumption Survey found that a majority of Americans consumed less than the recommended daily magnesium intake [3]. Twelve age-sex groups were studied and this low magnesium intake was true for all groups except 0 to 5 year olds. An analysis of the nutrient content of the diets of 7,810 individuals age four and above included magnesium among several nutrients where the amounts supplied by the average diet "were not sufficient to meet recommended standards" [4]. The FDA’s Total Diet study examined the intakes of eleven minerals, including magnesium, among eight age-sex groups. Data was collected four times yearly from 1982 to 1984. Levels of magnesium, calcium, iron, zinc and copper were low for most age-sex groups [5]. Surveys conducted in Europe and in other parts of North America paint a similar picture. Loss of magnesium during food processing is one explanation for this global lack of adequate dietary magnesium [6]. In particular, the elderly may be susceptible to magnesium deficiency for a variety of reasons, including inadequate magnesium intake, poor absorption due to impaired gastrointestinal function and use of drugs such as diuretics that deplete magnesium from the body [7]. It has recently been theorized that magnesium deficiency may contribute to accelerated aging, through effects on the cardiovascular and nervous systems, as well as muscles and the kidneys [8]. Women who take both synthetic estrogen and calcium supplements may be at risk for low blood levels of magnesium [9]. Estrogen promotes the transfer of magnesium from blood to soft–tissues. Low blood magnesium may result if the ratio of calcium to magnesium intake exceeds 4 to 1. Magnesium supplementation is thus advisable for women taking estrogen and calcium. Young adults are not immune to magnesium deficiency. The University of California’s Bogalusa Heart Study collected nutritional data from a cross-sectional sample of 504 young adults between age 19 and 28 [10]. The reported intake of magnesium, along with several other minerals and vitamins, was below the RDA. Glycine is a highly effective mineral chelator. This is because it is a low-molecular-weight amino acid, hence is easily transported across the intestinal membrane. A study conducted at Weber State University found this particular magnesium glycinate was absorbed up to four times more effectively than typical magnesium supplements. Magnesium-the Versatile Mineral The average adult body contains anywhere from about 21 to 28 grams of magnesium. Approximately 60 percent of the body’s magnesium supply is stored in bone. Soft tissue, such as skeletal muscle, contains 38%, leaving only about 1 to 2% of the total body magnesium content in blood plasma and red blood cells. Magnesium in the body may be bound either to proteins or "anions" (negatively charged substances.) About 55% of the body’s magnesium content is in the "ionic" form, which means it carries an electrical charge. Magnesium ions are "cations," ions that carry a positive charge. In its charged state, magnesium functions as one of the mineral "electrolytes." Magnesium works as a "co-factor" for over 300 enzymatic reactions in the body. Metabolism uses a phosphate containing molecule called "ATP" as its energy source. Magnesium is required for all reactions involving ATP [11]. ATP supplies the energy for physical activity, by releasing energy stored in "phosphate bonds". Skeletal and heart muscle use up large amounts of ATP. The energy for muscle contraction is released when one of ATP’s phosphate bonds is broken, in a reaction that produces ADP. Phosphate is added back to ADP, re-forming ATP. ATP also powers the cellular "calcium pump" which allows muscle cells to relax. Because it participates in these ATP-controlled processes, magnesium is vitally important for muscle contraction and relaxation. By controlling the flow of sodium, potassium and calcium in and out of cells, magnesium regulates the function of nerves as well as muscles [12]. Magnesium’s importance for heart health is widely recognized. The heart is the only muscle in the body that generates its own electrical impulses. Through its influence on the heart’s electrical conduction system, magnesium is essential for maintenance of a smooth, regular heartbeat [13]. Magnesium appears to help the heart resist the effects of systemic stress. Magnesium deficiency aggravates cardiac damage due to acute systemic stress (such as caused by infection or trauma), while magnesium supplementation protects the heart against stress [14]. This has been found true even in the absence of an actual magnesium deficit in the body. Evidence suggests that magnesium may help support mineral bone density in elderly women. In a two-year open, controlled trial, 22 out of a group of 31 postmenopausal women who took daily magnesium supplements showed gains in bone density. A control group of 23 women who declined taking the supplements had decreases in bone density [15]. The dietary intakes of magnesium, potassium, fruit and vegetables are associated with increased bone density in elderly women and men [16]. In an interesting animal study, rats were fed diets with either high or low levels of magnesium. Compared to the high magnesium-fed rats, bone strength and magnesium content of bone decreased in the low-magnesium rats, even though these rats showed no visible signs of magnesium deficiency [17]. While this finding may or may not apply to humans, it raises the possibility that diets supplying low magnesium intakes may contribute to weakening of bone in the elderly. Maximizing Absorption––Chelated Minerals Explained Mineral absorption occurs mainly in the small intestine. Like any mineral, magnesium may be absorbed as an "ion," a mineral in its elemental state that carries an electric charge. Mineral ions cross the intestinal membrane either through "active transport" by a protein carrier imbedded in the cells lining the membrane inner wall, or by simple diffusion. The magnesium in mineral salts is absorbed in ionic form. However, absorption of ionic minerals can be compromised by any number of factors, including: 1) Low solubility of the starting salt, which inhibits release of the mineral ion, and 2) Binding of the released ion to naturally occurring dietary factors such as phytates, fats and other minerals that form indigestible mineral complexes [18]. A second absorption mechanism has been discovered for minerals. Experiments have shown that minerals chemically bonded to amino acids (building blocks of protein) are absorbed differently from mineral ions. This has given rise to the introduction of "chelated" minerals as dietary supplements. Mineral amino acid chelates consist of a single atom of elemental mineral that is surrounded by two or more amino acid molecules in a stable, ring-like structure. Unlike mineral salts, which must be digested by stomach acid before the desired mineral portion can be released and absorbed, mineral chelates are not broken down in the stomach or intestines. Instead, chelates cross the intestinal wall intact, carrying the mineral tightly bound and hidden within the amino acid ring. The mineral is then released into the bloodstream for use by the body. Research by pioneers in the field of mineral chelation and human nutrition indicates that the best-absorbed chelates consist of one mineral atom chelated with two amino acids. This form of chelate is called a "di-peptide." Compared to other chelates, di-peptides have the ideal chemical attributes for optimum absorption [19]. Dipeptide chelates demonstrate superior absorption compared to mineral salts. For example, a magnesium di-peptide chelate was shown to be four times better absorbed than magnesium oxide [20]. Consumer Alert! Not all "amino acid chelates" are true chelates. In order for a mineral supplement to qualify as a genuine chelate, it must be carefully processed to ensure the mineral is chemically bonded to the amino acids in a stable molecule with the right characteristics. The magnesium bis-glycinate/lysinate in High Absorption Magnesium is a genuine di-peptide chelate ("bis" means "two"). It has a molecular weight of 324 daltons, considerably lower than the upper limit of 800 daltons stated in the definition of "mineral amino acid chelates" adopted by the National Nutritional Foods Association in 1996 [21]. Bioperine® For Enhanced Absorption Bioperine® is a natural extract derived from black pepper that increases nutrient absorption.* Preliminary trials on humans have shown significant increases in the absorption of nutrients consumed along with Bioperine® [22]. Scientific References 1. Abbott, L.R., R., Clinical manifestations of magnesium deficiency. Miner electrolyte Metab, 1993. 19: p. 314-22. 2. Durlach, J., Recommended dietary amounts of magnesium: Mg RDA. Magnesium Research, 1989. 2(3): p. 195-202. 3. Morgan, K.e.a., Magnesium and calcium dietary intakes of the U.S. population. Journal of the American College of Nutrition, 1985. 4: p. 195-206. 4. Windham, C., Wyse, B., Hurst, R. Hansen, R., Consistency of nutrient consumption patterns in the United States. J AM Diet Assoc, 1981. 78(6): p. 587-95. 5. Pennington, J., Mineral content of foods and total diets: the Selected Minerals in Food Survey, 1982 to 1984. J AM Diet Assoc, 1986. 86(7): p. 876-91. 6. Marier, J., Magnesium Content of the Food Supply in the Modern- Day World. Magnesium, 1986. 5: p. 1-8. 7. Costello, R., Moser-Veillon, P., A review of magnesium intake in the elderly. A cause for concern? Magnesium Research, 1992. 5(1): p. 61-67. 8. Durlach, J., et al., Magnesium status and aging: An update. Magnesium Research, 1997. 11(1): p. 25-42. 9. Seelig, M., Increased need for magnesium with the use of combined oestrogen and calcium for osteoporosis treatment. Magnesium Research, 1990. 3(3): p. 197-215. 10. Zive, M., et al., Marginal vitamin and mineral intakes of young adults: the Bogalusa Heart Study. J Adolesc, 1996. 19(1): p. 39-47. 11. McLean, R., Magnesium and its therapeutic uses: A review. American Journal of Medicine, 1994. 96: p. 63-76. 12. Graber, T., Role of magnesium in health and disease. Comprehensive Therapy, 1987. 13(1): p. 29-35. 13. Sueta, C., Patterson, J., Adams, K., Antiarrhythmic action of pharmacological administration of magnesium in heart failure: A critical review of new data. Magnesium Research, 1995. 8(4): p. 389- 401. 14. Classen, H.-G., Systemic stress, magnesium status and cardiovascular damage. Magnesium, 1986. 5: p. 105-110. 15. Stendig-Lindberg, G., Tepper, R., Leichter, I., Trabecular bone density in a two year controlled trial of peroral magnesium in osteoporosis. Magnesium Research, 1993. 6(2): p. 155-63. 16. Tucker, K., et al., Potassium, magnesium, and fruit and vegetable intakes are associated with greater bone mineral density in elderly men and women. Am J Clin Nutr, 1999. 69(4): p. 727-736. 17. Heroux, O., Peter, D., Tanner, A., Effect of a chronic suboptimal intake of magnesium on magnesium and calcium content of bone and bone strength of the rat. Can J. Physiol. Pharmacol., 1975. 53: p. 304-310. 18. Pineda, O., Ashmead, H.D., Effectiveness of treatment of irondeficiency anemia in infants and young children with ferrous bisglycinate chelate. Nutrition, 2001. 17: p. 381-84. 19. Adibi, A., Intestinal transport of dipetides in man: Relative importance of hydrolysis and intact absorption. J Clin Invest, 1971. 50: p. 2266-75. 20. Ashmead, H.D., Graff, D., Ashmead, H., Intestinal Absorption of Metal Ions and Chelates. 1985, Springfield, Illinois: Charles C. Thomas. 21. NNFA definition of mineral amino acid chlelates, in NNFA Today. 1996. p. 15. 22. Bioperine-Nature's Bioavailability Enhancing Thermonutrient. 1996, Sabinsa Corporation: Piscataway, N.J. *This statement has not been evaluated by the Food and Drug Administration. This product is not intended to diagnose, treat, cure or prevent any disease. Doctor's Best•1120 Calle Cordillera•Suite 101, San Clemente, CA 92673
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=821) Gentle Giant Glycinate - Calcium / Magnesium Glycinate 1:1 ratio
Date:
July 11, 2005 01:06 PM
Gental Giant Glycinateas you know, minerals come in many forms. Glycinate is the body-friendly gental giant you've been searching for. Calcium and Magnesium Glycinate are fully reacted chelates of calcium and magnesium with the amino acid glycine. Cal Mag Glycinate 1:1 provides 500mg of each mineral in an ActiSorb Base of enhanced absorption. Cal Mag Glycinate 1:1 Your Body will thank you, Actisorb ® Base: (Bioperine [black pepper extract], Ginger root extract, Rosemary Leaf extract, Turmeric root extract, cayenne extract)
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