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Search Term: " dioxide "
ALL HEALING NUTRIENTS found in cannabis are made from carbon dioxide, the "miracle molecule" for plant life across our planet   
Date:
June 10, 2017 09:14 AM
Those who espouse anti-carbon dioxide sentiment, are really missing the main point, which is that it is absolutely essential to all plant life on earth. Because of this, they refer to it as the "miracle molecule". In terms of cannabis, it too would not exist with carbon dioxide. Without carbon dioxide, the world would be deprived of THC, which is the active ingredient in cannabis and is responsible for the medical applications we hear about. Life on earth cannot exist without carbon dioxide, so demonizing it is not the right answer. The real answer to solving the air quality problem is minimizing particulate pollution emissions and determining the optimal balance of carbon dioxide to support a lush, life sustaining earth. Key Takeaways:
"Poor air quality is absolutely killing people around the world, and particulate pollution emissions are a serious problem for many reasons." Read more: http://www.naturalnews.com/2017-06-07-all-healing-nutrients-found-in-cannabis-are-made-from-carbon-dioxide-the-miracle-molecule-for-plant-life-across-our-planet.html
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=4803) Environment's Effect on Health 
Date:
April 27, 2017 10:44 PM
The environment can take a toll on a persons health. It can disturb a persons well being and cause health concerns. The World Health Organization defines environment, as it relates to health, as "all the physical, chemical, and biological factors external to a person and all the related behaviors." The pollutants in the environment can contribute to heart disease and stroke. Some of the most dangerous pollutants are carbon monoxide, nitrates, sulfur dioxide, lead, and secondhand tobacco smoke. Things that you can do to limit your output of pollutants would be to walk to places instead of driving when possible, not buy bottled water and instead use a reusable one. You could also use fewer chemicals in household cleaning. Read more: Environment's Effect on Health
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=4492) What is the Krebs cycle and why is it important?
Date:
August 16, 2015 07:14 PM
The Krebs cycle is a series of chemical response that helps in the production of Adenosine triphosphate (ATP) and carbon dioxide, a compound that is rich in energy. This cycle happens with the combination of two carbon coenzymes and carbon complexes and goes through a series of changes to produce the required energy that is needed for the smooth functioning of living organism. This cycle occurs in all the cells that use oxygen for their respiration process. Carbon dioxide has an important role since it fuels breathing and the ATP also plays a vital role as it provides cells with a required energy for synthesis of proteins from amino acid and the reproduction of deoxyribonucleic acid. These are considered essential for energy supply and for the continuation of any kind of life including human. The Krebs cycle is known as the second phase of the aerobic respiration. Aerobic respiration is composed of three phases, Glycosis is the first phase, followed by the Krebs Cycle, and last is the Electron phase. These three stages are a series of a cycle that all living cells must experience to produce the required energy for the smooth functioning of the mechanism of life. Why Krebs cycle is important? Poor digestion, fatigue and lack of proper nutrition are the common complaints among the people of all ages all over the world. This complaint comes when the body does not get proper nutrition or is unable to digest food even if it's available. It leads to a chronic problem and makes most of the people suffer. But what makes them suffer? This is the listless metabolism that ultimately leads to slow Krebs cycle function. When Krebs cycle does not function properly, after a period of time it causes the accretion of undigested food remains in the blood vessels and also creates some other health complications such as constipation, fatigue and smoggy brain. In the long run, it can create some other health complication that is severe and sometimes life-threatening. So to avoid this situation people usually prefer to take the Krebs cycle supplement. This supplement resolves all these issues and also makes you feel energetic. Why your body is reliant on Krebs cycles? Krebs cycles are important since it helps to generate energy from the food, particularly from the carbohydrate. And you can get carbohydrate from grains, cereals, fats and also from vegetable and animal sources. You can also get carbohydrates from the proteins. By definition, carbohydrates are the combination of three important things, carbon, hydrogen and oxygen and these things can be changed to glucose inside your body. Initially your body uses the carbohydrate as the foundation of glucose and then through a series of processing, the body gets the required amount of carbohydrates from the diet. And here Krebs cycle plays an important role to generate energy from the carbohydrate. The Krebs cycle is considered important for producing energy, it does not help you to run fast and to be active only, and it also enables your metabolic process to work efficiently. References: //www.wisegeek.org/what-is-the-krebs-cycle.htm
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=3195) Is Sulfite Sensitivity And Vertigo Linked?
Date:
October 17, 2011 03:40 PM
Sulfites are chemical compounds which occur naturally in several animal and plant products. These chemicals are sulfur - based which is commonly used as food enhancer or preservative. Sulfites can effectively prolong the shelf life of food and also prevent discoloration of food. Foods which may contain sulfite include baked products, canned goods, junk foods, vegetable juices, fruit juices, apple cider, some teas and other processed food items. Sulfite - containing ingredients may include sulfur dioxide, potassium bisulfite or potassium metabisulfite and sodium bisulfite, sodium metabisulfite, or sodium sulfite. Allergic reaction to sulfite is not that rare. In fact, the Food and Drug Authority have established "1 out of 100 people" prevalence rate that is hypersensitive to sulfite and its products. Any person may develop allergic reaction to sulfites any time of his/her life. Studies revealed that the cause of such hypersensitivity is still unknown. More studies are still ongoing. Initial results have stated that the allergic effects can be mild or life – threatening. In late 1980's, the FDA released a memorandum on prohibiting the use of sulfite on fruits and vegetables that are commonly eaten fresh and raw such as lettuce, apples, guavas and the like. Regulations are also released for manufacturers to put labels on sulfite – containing processed food items. Sulfites also occur naturally among wines and beers. One theory revealed that sulfite allergic reaction may be caused by a significant insufficient amount of the enzyme necessary for the breakdown and elimination of such compound known as sulfite oxidase. This enzyme works hand in hand with the element molybdenum which acts as a cofactor. Nonetheless, asthma, nasal and sinus congestion, rhinitis, postnasal drip, headache and bronchospasm may also be experienced by the individual as an effect of sulfite consumption. In addition, vertigo may also be a manifestation of sulfite hypersensitivity. Studies have found that the allergic reaction brought about by the compound sulfite can significantly lower blood pressure thus resulting to decreased cardiac output which can eventually lead to insufficient tissue perfusion. Thus, dizziness is experienced or even loss of consciousness. Vertigo or dizziness is a kind of feeling in which your surroundings seem to be moving around even though there is no actual movement. In cases of severe vertigo, the person may experience nausea and vomiting. This will greatly affect your daily functioning since the person with vertigo may have difficulty walking or even standing on his/her own. This will significantly result to loss of balance and increase the risk of fall. There is no direct treatment of sulfite sensitivity. However, the symptoms can be alleviated in a palliative manner. The one and only way to prevent the occurrence of allergic reaction is to avoid food products with sulfites or food items which are likely to have sulfite content. Therefore, if you have sulfite allergy, you must be vigilant on what you eat. Carefully check labels of processed and preserved foods and when eating out, politely as the waiter or chef if the food you like contains sulfite or ingredients which contain such chemical compound. Foods to avoid: Alcoholic beverages, Baked goods (pastries), Beverages fruit based, Condiments, Relishes, Confections, Frostings, Modified Dairy Products, Drugs, Fish, shell fish, fresh fruit and vegetables, gelatin, puddings, grains, jams, jellies, nuts, plant proteins, snack foods, soups and soup mixes, sweet sauce, and instant teas. To name a few. Look online to view a more details list of foods to avoid. This practically eliminates most of our favored junk foods we love to eat. Avoiding these foods may be hard but it is a healthier choice.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=2511) Inosine
Date:
December 19, 2008 12:35 PM
Inosine is a specific type of glycosylamine that consists of a base bound to a deoxyribose or ribose sugar. This type of glycosylamine is referred to as a nucleoside, others being adenosine, thymidine and cytidine. It is available naturally in brewer’s yeast and major organ offal such as liver and kidney. It’s function in animal biochemistry is in the production of ATP (adenosine triphosphate), often known as the molecule of energy, that is essential for the generation of energy by the mitochondria in our body cells. It’s biochemistry is described below. Inosine is synthesized as inosine monophosphate by means of a complex series of biochemical reactions. The inosine monophosphate is a precursor for adenine, a nucleotide and purine base that reacts with ribose to form adenosine. This is another nucleoside that can be phosphorylated to produce adenosine monophosphate (AMP), the diphosphate (ADP), the triphosphate (ATP) and cyclic adenosine monophosphate (cAMP). Each of these is involved in the metabolism of energy in the mitochondria. Glucose undergoes a number of enzyme-catalyzed reactions in the presence of oxygen that ultimately breaks it down to water and carbon dioxide, plus at least 36 molecules of ATP via glycolysis and then the Krebs cycle. The ATP reacts with water to release energy and form ADP. The ADP can then be phosphorylated to produce more ATP. The starting point of all of this is inosine, and it is little wonder this nucleoside is used by athletes to help boost their energy. Not only that, however, but adenine is also the precursor of amino and nucleic acids responsible for the generation of RNA and DNA, and it is also responsible for the production of many coenzymes. These provide other opportunities for its use elsewhere in medicine, and it has also been found to possess other medical properties that will be discussed later. It was in the 1970s that inosine was first used to boost athletic performance due to its part in the generation of the energy needed by every muscle in the body. Its use began in eastern countries, although evidence at the time did not support the theory. Nevertheless, this did not deter its advocates, and inosine continued to be used by athletes, a practice that has now spread world-wide. It has been found to be a metabolic activator, in that it supports metabolism through the generation of energy. Inosine has been used by power lifters for heavy weight training to increase the capacity of the blood to carry oxygen, and strength athletes, particularly of the Eastern Bloc, used it from the mid 1970s onwards. Inosine appears to increase the natural ability of the body to handle strenuous workouts, although there is no scientific proof of this. However, those that use it claim an increased ability to carry out intensive training workouts and an improvement in their competitive performance. The nucleotide can penetrate the cell walls and get to where it is needed to take part in the metabolism of energy through the production of ATP. Now, however, inosine has an entirley different application in medicine. Studies have shown that it could support those suffering from MS (multiple sclerosis) and strokes through its pereceived neuroprotective properties. It appears to promote axonal rewiring, where undamaged neurons appear to grow new connections with damaged areas of the brain, and undamaged neurons seem to branch out to replace some of the damaged neurons. Inosine is also an intermediate in the production of uric acid through purine and purine nucleoside degradation. Uric acid is a powerful antioxidant, particularly in respect of peroxynitrite, a nucleophile that causes the type of axonal degradation that is associated with multiple sclerosis. It thefore helps in two ways: through the production of uric acid, and in promoting axonal rewiring that can improve brain function in patients. Another potential medical use for the substance is based upon the discovery that inosine and related compounds can act as powerful anti-inflammatories through their effect on inflammatory macrophage proteins. Certain conditions can cause the release of these macrohages, and where it is an undesirable side-effect, inosine can be administered to prevent it occuring. Inosine appears to inhibit the production of pro-inflammatory cytokines without inhibiting anti-inflammatory cytokines. It appears to do so extracellularly, although the effect can be reversed by the blockading of adenosine receptors. However, it is a convenient way of avoiding this sometimes serious condition, which is a natural function of the immune system, without affecting any other part of that system’s essential work. It is not an essential nutrient, since it is synthesized biochemically, but a supplement of inosine is certainly worth taking if you want to increase your ability to carry out athetic exercise requiring a high energy output and increased blood oxygen availability. It also helps to reduce recovery time, and proponents of its use claim that it enables you to exercise at a higher level for longer. Although the medical evidence for this is scant, not a lot of work has been done in trying to establish it, and those that use inosine in this way swear that it is effective. The theory certainly indicates that it should be effective in helping to produce more energy, and also that it should be able to make more oxygen available, and some athletes have been taking it for decades with excellent results. There are no known side effects of its use, although pregnant women and nursing mothers are recommended not to use it, as with many other health supplements the pathology of which have not been closely studuied. As with any supplement, you are highly recommended to consult your own doctor or physician when taking any supplement, particular if you have a current medical condition or are taking prescriptive medicines. If you are predisposed to gout, and some people are, the uric acid it produces can render inosine unsuitable. Uric acid reacts with calcium to produce the sodium urate that is deposited on the cartilage and tendons of the joints, particularly the big toe. It is a very painful condition, so those that have suffered gout in the past should not take inosine as a supplement.
Otherwise, its effect on your athletic performance might be academic!
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1951) What are you really Getting?
Date:
August 21, 2006 05:20 PM
Supplement labels can be confusing!
The list of ingredients on some supplement labels can tax the mind of even a Ph.D. in nutrition! What’s worse, although labeling laws exist to counter misleading and non-uniform labeling, confusing and deceptive labeling, confusing and deceptive labeling practices continue to abound. Here’s some help to aid you in making better sense of supplement labels.
1.Begin at the Bottom
The supplement facts panel on the label of every nutitional supplement sold in the
2.Directions, Dose & Value
Directions: Though not required on labels, directions tell how and when to take supplements. This is important because timing your doses can affect absorption. In general:
· Vitamins are best absorbed when taken with food, and in divided doses throughout the day.
· Fat-soluble vitamins (A,D,E,K) require dietary fat for absorption, so are best taken with meals.
· Many minerals can be absorbed effectively at any time.
· Most herbs, probiotics, amino acids & proteolytic enzymes (not digestive enzymes, which should be taken with meals) are best taken on an empty stomach.
1. Serving size: SERVING SIZE is required on labels. It recommends the number of tablets, capsules, spoonfuls, ect. Taken at one time. Be ware that a serving is not necessarily the total recommended daily amount.
2. Cost-Effectiveness: To determine, first find the SERVING SIZE. Then read the directions to see how much servings are suggested daily. Finally, divide the number of servings needed into the number of SERVINGS PER CONTAINER.
Example: Assuming the two bottles above have the same ingredients and cost. The product on right offers more servings, and is a better buy. Product on left just has less nutritive ingredients, or more filler, in each pill.
3. % DV (Daily Value): The daily value of a nutrient represents the amount expected to meet the daily needs of an “average” healthy person. On labels, % DV indicates provided by one serving. DVs have not been established for herbs, essential fatty acids and other nutrients.
Note: Many experts in nutrition think that suggested DV levels for some nutrients are far too low to optimize health. This is why certain ingredients may be present at greater than 100% DV levels.
3.Games Labels Play
There is no free lunch in the world of supplements. A bottle that costs less probably contains less – either fewer nutrients, or less effective forms of nutrients. Educate yourself; compare ingredient amounts, forms and sources, and watch out for labeling tricks such as these.
“Padding” the label
“padding” the label is a common way for supplement marketers to make their ingredients list look more complete and beneficial than it really is. Padding methods include:
Example: CoQ10 useful range is 30mg to 400mg (milligrams.) product on left provides 1000mcg (microgram) of CoQ10, the equivalent of just one mg! product on right provides a beneficial 50mg.
Example: Whole grains such as oats are part of a heart healthy diet, but the product on left provides less than a pinch 20mg of oat bran. Product on right includes no irrelevant ingredients in useless amounts.
Example: Fiber and flavonoids are part of oats, not more ingredients.
The “Name’s the Same” Game
A common trick is to provide unproven, weak or useless forms of familiar, good ingredients. Buyer beware!
Example: Studies suggest that Pygeum bark standardized extract helps support prostate health. Product on left uses unresearched powdered bark.
Proprietary Blend = “It’s a Secret”
Some companies may hide the quantity and quality of their ingredients by calling their formula a “Proprietary Blend.” This term may allow manufacturers to use a lot of nutrient from a cheap source and very little from a good source without disclosing how much of each you are actually getting.
This deceptive practice is legal—as long as the secret blend:
· Is labeled “Proprietary Blend” (or fanciful trademark name)
· Lists individual nutrients in descending order by weight
· Lists the total weight per serving
When you see the word “Proprietary,” ask: “how relevant is the first or second ingredient?” Sometimes, the most abundant ingredients are either fillers, or inexpensive, less effective forms.
Example: Legally, product on left could contain 99% alfalfa filler and only 1% of all the other herbs together! The Good Label tells all.
Hiding Outside the Box
Another clever way to hide the quality of ingredients is by listing them outside the Supplement Facts box, in the Other Ingredients section located beneath the box. This section is usually intended for listing agents used in the tableting or encapsulation process.
Example: Agents used in supplement manufacture (i.e. cellulose and stearates) should be listed under Other Ingredients. Product on left also uses this section to list catchy sounding spirulina, lycopene, and grape seeds. With no amounts listed, assume these ingredients are present in low levels that provide little value. A supplement maker who is proud of a product’s nutritive ingredients will fully disclose amounts within the Supplement Facts box not list these ingredients along with manufacturing agents in the Other Ingredient section.
4.Understanding Herbs
Herb Forms: Powders, Tinctures, Extracts
The form, preparation and concentration of an herb affects its potency and influences the herb’s potential for therapeutic effectiveness. the potency of all herb forms except standardized extracts are uncertain and depends on factors invisible to the consumer (i.e. soil quality, rainfall, seasonal climate, harvesting methods, storage methods and age).
Know Your Plant Parts: Medicinal plants often have specific parts that are most effective therapeutically, such as the root for goldenseal, the leaf for raspberry, and the blossom for clover. Products using irrelevant plant parts may cost less, but offer little or no benefit!
Powdered Herb
Often encapsulated or used as tea, powdered herbs are more likely than other forms to lose potency when exposed to air. Fresh, high quality powdered herb may add therapeutic or nutritional value to a supplement. Low quality powders may provide little benefit. Look for expiration or “use by” dates.
Example: If the label doesn’t say otherwise, assume the form of herb is powdered. Better labels specify plant part and latin name (genus and species). Sometimes a less effective species of a plant is used to save money. Check to see if other related species may be equally effective.
Tinctures and Fluid Extracts
Tinctures contain the soluble parts of dried or fresh herbs, often extracted in a mixture of alcohol and water, vinegar or glycerin. Tinctures are usually dispensed by drops. This form is more stable and thus has longer shelf life than powdered herb.
Example: Better labels specify tincture strength as a ratio. Regular tinctures are made using 1 or 2 parts herb to 10 parts solvent, yielding strength ratio of 1:10 or 1:5. higher potency tinctures (also known as fluid extracts) use more herb in less solvent, yielding stronger 1:3, 1:2, or even high strength 1:1 ratios.
Concentrated and standardized extracts
Concentrated or standardized extracts (solid, powdered, liquid) are generally prepared from evaporated herbal tinctures or teas.
Example: A better label tells you the concentration strength by noting the ratio of herb to extract. This is often appears after the plant name.
Example: Standardized extracts provide a set percentage of an herb’s researched nutritive ingredient. Useless this percentage is noted on the label, the term “Standardized” is meaningless.
5.Beware of False Claims
Is it science of is it marketing? To avoid being misled, question all claims on supplement labels as well as in advertisements. Although government guidelines restrict the types of claims that manufacturers can legally use to promote their products, not all companies comply. Many promises mount to little more than marketing hype.
Use common sense to decide if a claim seems realistic. Be aware of emotionally charged, misleading language in advertising.
When doubt, contact the company and request information to support a claim. Unbiased research and human studies are most relevant. If the science seems legitimate, verify that the form and dose used in product match form and dose showing benefit in studies.
-- Buy Discount Vtiamins Vitanet ®
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1353) Chloride: The Forgotten Essential Mineral
Date:
November 20, 2005 07:54 AM
Chloride: The Forgotten Essential Mineral Chloride is an “essential” mineral for humans. It is abundant in ionic trace mineral preparations. It is a major mineral nutrient that occurs primarily in body fluids. Chloride is a prominent negatively charged ion of the blood, where it represents 70% of the body’s total negative ion content. On average, an adult human body contains approximately 115 grams of chloride, making up about 0.15% of total body weight.1 The suggested amount of chloride intake ranges from 750 to 900 milligrams per day, based on the fact that total obligatory loss of chloride in the average person is close to 530 milligrams per day. As the principle negatively charged ion in the body, chloride serves as one of the main electrolytes of the body. Chloride, in addition to potassium and sodium, assist in the conduction of electrical impulses when dissolved in bodily water. Potassium and sodium become positive ions as they lose an electron when dissolved and chloride becomes a negative ion as it gains an electron when dissolved. A positive ion is always accompanied by a negative ion, hence the close relationship between sodium, potassium and chloride. The electrolytes are distributed throughout all body fluids including the blood, lymph, and the fluid inside and outside cells.2 The negative charge of chloride balances against the positive charges of sodium and potassium ions in order to maintain serum osmolarity. Pivotal Roles of Chloride in the Body In addition to its functions as an electrolyte, chloride combines with hydrogen in the stomach to make hydrochloric acid, a powerful digestive enzyme that is responsible for the break down of proteins, absorption of other metallic minerals, and activation of intrinsic factor, which in turn absorbs vitamin B12. Chloride is specially transported into the gastric lumen, in exchange for another negatively charged electrolyte (bicarbonate), in order to maintain electrical neutrality across the stomach membrane. After utilization in hydrochloric acid, some chloride is reabsorbed by the intestine, back into the blood stream where it is required for maintenance of extracellular fluid volume. Chloride is both actively and passively absorbed by the body, depending on the current metabolic demands. A constant exchange of chloride and bicarbonate, between red blood cells and the plasma helps to govern the pH balance and transport of carbon dioxide, a waste product of respiration, from the body. With sodium and potassium, chloride works in the nervous system to aid in the transport of electrical impulses throughout the body, as movement of negatively charged chloride into the cell propagates the nervous electrical potential. Deficiency of Chloride Deficiency of chloride is rare. However, when it does occur, it results in a life threatening condition known as alkalosis, in which the blood becomes overly alkaline. A tedious balance between alkalinity and acidity is in constant flux, and must be vigilantly maintained throughout the entire body. Alkalosis may occur as a result of excessive loss of sodium, such as heavy sweating during endurance exercise, and in cases of prolonged vomiting and diarrhea. Symptoms include muscle weakness, loss of appetite, irritability, dehydration, and profound lethargy. Hypochloremia may result from water overload, wasting conditions, and extensive bodily burns with sequestration of extracellular fluids. In a situation in which infants were inadvertently fed chloride-deficient formula, many experienced failure to thrive, anorexia, and weakness in their first year of life.3 Excess Intake? Excessive intakes of dietary chloride only occur with the ingestion of large amounts of salt and potassium chloride. The toxic effects of such diets, such as fluid retention and high blood pressure, are attributed to the high sodium and potassium levels.4 Chloride toxicity has not been observed in humans except in the special case of impaired sodium chloride metabolism, e.g. in congestive heart failure.5 Healthy individuals can tolerate the intake of large quantities of chloride provided that there is a concomitant intake of fresh water. Other situations in which increased blood levels of chloride are seen include diseases of improper waste elimination that occur in kidney diseases. Excess chloride is normally excreted in the urine, sweat, and bowels. In fact, excess urinary excretion of chloride occurs in high salt diets. Excessive intakes of chloride can occur in a person with compromised health in addition to an unhealthy diet. However, those that follow a healthy diet and lead an active lifestyle may need to consider supplementing their diet with this important mineral. Chloride vs. Chlorine The mineral supplement chloride is very different from the gas chlorine. While elemental chlorine is a dangerous gas that does not exist in the free elemental state in nature because of its reactivity, although it is widely distributed in combination with other elements. Chloride is related to chlorine however, as one of the most common chlorine compounds is common salt, NaCl. Chloride is a by-product of the reaction between chlorine and an electrolyte, such as potassium, magnesium, or sodium, which are essential for human metabolism. Chloride salts are essential for sustaining human metabolism and have none of the effects of isolated chlorine gas. Sources of Chloride Chloride occurs naturally in foods at levels normally less than 0.36 milligrams per gram of food. The average intake of chloride during a salt-free diet is approximately 100 milligrams per day. Unfortunately, chloride is found commonly combined with undesirable dietary sources. The most common of these negative sources is table salt. Table salt is made from a combination of sodium and chloride ions. Other unhealthful sources include yeast extracts, processed lunchmeats, and cheeses. Healthier sources of chloride include kelp (seaweed), ionic trace minerals, olives, rye, tomatoes, lettuce, and celery, although not in large enough amounts to supply the needs of an active adult.6 In its original form, however, chloride is leached from various rocks into soil and water by years of weathering processes. The chloride ion is highly mobile and is transported to closed basins, such as the Great Salt Lake, or oceans.7 Summary Chloride is a highly important, vital mineral required for both human and animal life. Without chloride, the human body would be unable to maintain fluids in blood vessels, conduct nerve transmissions, move muscles, or maintain proper kidney function. As a major electrolyte mineral of the body, chloride performs many roles, and is rapidly excreted from the body. Active adults that eat a healthy diet devoid of salt and illnesses in which vomiting and/or diarrhea are profuse warrant the supplementation of additional chloride. Replacement of chloride is essential on a daily basis to maintain regular metabolic function. Chloride is safely utilized by the body, without negative health effects. Of the negative health effects that have been associated with diets high in chloride, these are mainly attributable to the accompanying sodium and potassium, two other electrolyte minerals to which chloride is often attached -------------------------------------------------------------------------------- 1 Wesson LG. Physiology of the human kidney. New York, NY, Grune and Stratton, 1969: 591 2 Weast RC, ed. CRC handbook of chemistry and physics, 67th ed. Boca Raton, FL, CRC Press, 1986. 3 Kaleita TA. Neurologic/behavioral syndrome associated with ingestion of chloride-deficient infant formula. Pediatrics 1986 Oct;78(4):714-5 4 Beard TC. A salt-hypertension hypothesis. J Cardiovasc Pharmacol 1990;16 Suppl 7:S35-8 5 Seelig M. Cardiovascular consequences of magnesium deficiency and loss: pathogenesis, prevalence and manifestations--magnesium and chloride loss in refractory potassium repletion. Am J Cardiol 1989 Apr 18;63(14):4G-21G 6 Altschul AM, Grommet JK. Food choices for lowering sodium intake. Hypertension 1982 Sep-Oct;4(5 Pt 2):III116-20 7 Gelb SB, Anderson MP. Sources of chloride and sulfate in ground water beneath an urbanized area in Southeastern Wisconsin (Report WIS01 NTIS). Chemical abstracts, 1981, 96(2):11366g.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=958) Pep Up and Go!
Date:
June 14, 2005 05:45 PM
Pep Up and Go! by Harris Parker Energy Times, February 2, 2000 Feel your energy flagging? You've lost count of the number of phone calls you fielded all afternoon-the last was from your son, who missed the late bus home from school-and colleagues needing your decision are lined up outside your office. Your husband has invited clients home for dinner. You wilt like a new hairdo on a damp August day and pray for a miracle to jump-start your engine. Your pep quotient depends on three essential ingredients: nutrients you consume through your diet and supplements, how much you exercise and your sleep schedule.(Of course, if you're troubled by any kind of disabling, ceaseless fatigue accompanied by mental fuzziness, joint pain, sore throat, swollen glands, headaches and other chronic distress, consult your health practitioner.) Vitamins and Energy Certain nutrients are called vitamins because scientists consider them to be crucial for vitality. They generally function as coenzymes, partnering with the enzymes that are catalysts for the chemical reactions constantly taking place in our bodies. Our need to replenish our store of vitamins, which may merge with cell, muscle, enzyme, hormone, blood and bone structure once they have been absorbed, depends on their rate of utilization, according to The Real Vitamin & Mineral Book (Avery) by Shari Lieberman, PhD, and Nancy Bruning. While a low-fat diet rich in raw fruits and vegetables helps supply important nutrients, a B complex supplement and a balanced multivitamin can guarantee daily vitamin levels. Be Energetic with B Vitamins Vitamins, especially the B vitamins, play extremely important roles in producing cellular energy. The chart on page 39 lists the key vitamins and describes their effects as well as the consequences of not getting enough of them. Their benefit is felt most profoundly in the energy producing process known as the Krebs cycle (which we'll explain in a moment). Vitamins B2 and B3, for example, supply the major building blocks for substances that are called flavin adenine dinucleotide (FAD and FADH) and nicotinamide adenine dinucleotide (NAD and NADH), which are critical elements of energy production in the Krebs cycle as well as a process called oxidative phosphorylation. Hundreds of Reactions Even though you may never have heard of NAD and NADH, these molecules are found in very many places throughout your body; they play a role in hundreds of biochemical reactions in all kinds of cells. B vitamins also combine with other materials to build coenzymes, chemicals which help form other chemicals necessary for cellular energy. B vitamins are crucial: miss out on one or more and you may break these metabolic chains necessary for peak energy. Energy to Spend The main energy currency of every cell single cell is ATP: a chemical called adenosine triphosphate. This material is used by cells for every imaginable task including reproduction, growth, movement and metabolism. Specialized metabolic cycles within the cell are designed to generate ATP. Consequently, the more ATP our cells create, the more energy can be generated. The raw materials used to make cellular energy are glucose (blood sugar) and "free" fatty acids. The best way to supply your cells with the sugar they need is to consume complex carbohydrates which also supply fiber and other nutrients. When you eat carbohydrates, they are made into glucose which is stored as a starch called glycogen in muscles and the liver. Your body can rapidly turn glycogen into glucose for extra energy. (The process of making energy from glycogen yields carbon dioxide and water as well as ATP.) Making Energy The first step in making glucose into energy is called glycolysis. This complicated process requires nine different steps. During these steps, glucose is made into a substance called pyruvate. The process of glycolysis requires ATP, but yields twice as much ATP as is present when it starts. From here, the process gets a little more complicated as pyruvate enters into a complex chain of events in tiny cellular structures called mitochondria. (Many metabolic events take place in the mitochondria.) The pyruvate molecules are converted to a molecule known as acetyl coenzyme A and eventually made into carbon dioxide, water and more ATP. This process is known as the Krebs cycle or citric acid cycle. It also involves a series of events known as oxidative phosphorylation in which NADH formed during the Krebs cycle is oxidized to form ATP. Why is fat such a concentrated source of energy? Free fatty acids enter the Krebs cycle to help generate ATP much more efficiently than glucose - producing roughly six times more energy per gram than glucose. And Don't Overlook. . . . . .other supplements that may aid energy production: • Alpha Lipoic Acid, an antioxidant that works in the fatty tissues of cell membranes and in cells' watery interiors • Coenzyme Q10, also known as ubiquinone as it exists everywhere in the body, acts like a vitamin because it stimulates some reactions. CoQ10 protects cell membranes, especially of the heart, against oxidation and toxins. Ginsengs: Energy Generators With their legendary and slightly mysterious characteristics, the ginsengs are greatly respected natural energy boosters. " Perhaps no herb has excited so much interest in medical circles as ginseng, and yet, strangely, it does not actually 'cure' any one particular ailment," reports Michael Hallowell, the author of Herbal Healing (Avery) and a frequent lecturer on botanic medicine. "Rather, its virtue lies in its tremendous power as a tonic and invigorator. Russian athletes are prescribed large amounts of ginseng because researchers in Moscow have shown that it not only improves stamina, but also increases the efficiency with which blood is pumped to the muscles." What are the physiological mechanisms that allow ginseng to bolster your get up and go? In order to unravel the legend and lore of ginseng, the first step is understanding the intricacies of the three types: • Asian (Panax ginseng), which produces the strongest and most profound stimulation; • American (Panax quinquefolium), which soothes at a more subtle level; • Siberian (Eleutherococcus senticosus), a stamina booster embraced by a wide range of athletes. All three varieties are treasured for their ability to help people adjust to stress. Biologically Active The ginsengs are adaptogens, "biologically active substances found in certain herbs and plants that help the body and mind adapt to the changes and stress of life," says Stephen Fulder, MD, author of The Book of Ginseng and Other Chinese Herbs for Vitality (Inner Traditions). "Stress is not an illness in itself. Stress is change, our ability to adapt to all the changes that occur in life, emotional or physical, from exercise, work, chemicals, drugs, food, radiation, bacteria, disease, temperature, or simply too many late nights or too much fun." The body reacts to stress by producing the hormone adrenaline, which throws the whole body into a state of alert. Metabolism, blood pressure and circulation accelerate; immunity and resistance drastically decline; performance suffers. Top-Notch Tonics Enter the ginsengs, with their varied, subtle tonic qualities. The Greek name for this herb, "panax," means "panacea" or cure-all. But the Chinese, who first referred to it 2,000 years ago, more literally called it "ren shen" or "person root," in reference to its physical resemblance to a miniature human form. " Most exhibit medicinal properties, but each species has a different chemical makeup and has a unique application in Traditional Chinese Medicine (TCM)," says Kim Derek Pritts, author of Ginseng: How to Find, Grow and Use America's Forest Gold (Stackpole). "In general, all true ginseng contains biologically active saponins (chemicals similar to human hormones), essential oils, carbohydrates, sugars, organic acids, nitrogenous substances, amino acids, peptides, vitamins and minerals." Building Vital Energy All the ginsengs strengthen, nourish and build Qi, the TCM concept describing basic vital energy circulating through our bodies. Every physical and mental function, from breathing, thinking, nutrition and circulation, is regulated by Qi. Although many of the Native American tribes used the abundant, indigenous Panax quinquefolium ginseng extensively, particularly to increase mental acuity and boost fertility, the herb never has been as popular in North America as it is in Asia. American ginseng traditionally has been a lucrative export crop to China, where the wild native variety suffers from overharvesting. Even today, according to Paul Bergner in The Healing Power of Ginseng & the Tonic Herbs (Prima), 95% of the American ginseng crop is exported to China, where XiYang Shen, or "western sea root," as it is called, is immensely valued and costs double what it does here. Energy Boost Jacques MoraMarco, author of The Complete Ginseng Handbook: A Practical Guide for Energy, Health and Longevity (Contemporary), as well as a licensed acupuncturist and doctor of Eastern medicine, suggests American ginseng for a slight energy boost. The moderate effect of American ginseng is considered a more appropriate tonic to the intensity of our pace and diet. Variations on a Theme In TCM terms, American ginseng cools and moistens, as well as lubricates and strengthens the body. It is reputed to reduce fevers and night sweats and alleviate hot, dry lung problems like smoker's cough. With its emollient qualities, American ginseng is considered to treat dry, wrinkled skin effectively. The Bolder Energizer Asian ginseng, which includes red Korean panax, is a bolder energizer taken by those who feel depleted from anemia, blood loss, cardiovascular weakness, injury, shock or trauma, as well as the disabling effects of age. In general, Asian ginseng is warming and stimulating, urging the body to run faster. Siberian ginseng, though botanically not a true ginseng, still acts similarly to Asian ginseng in its reputed power to control stress, boost energy, support the immune system, enhance performance and increase longevity. Called Wu Cha Seng in Chinese, Siberian ginseng is perceived by natural practitioners as an ideal herb for the healthy who want to lift both stamina and endurance. Experts believe it counteracts the effects of cortisol, the stress hormone produced by the adrenal glands in response to injury, pain or emotional turmoil. Natural Energy Boosters The herbal pharmacopeia includes several other natural energy boosters available in various forms-shakes and bars for those on the run-loaded with nutrition absent from commercial snacks. Some choices: • Ginkgo biloba-used in Chinese medicine to heat the body and increase sexual energy. Ginkgo enthusiasts take this herb to increase the supply of oxygen to the brain and generally increase circulation. • Gotu kola-may stimulate the central nervous system and help eliminate excess fluid, thereby reducing fatigue. • Astragalus-a Chinese herb that enhances energy and builds the immune system. It is credited with strengthening digestion, improving metabolism, increasing appetite, combating diarrhea and healing sores. • Schisandra-also a Chinese herb, treats respiratory illness, insomnia and irritability and rejuvenates sexual energy. Its mild adaptogens help the body to handle stress. • Licorice-is a favored endocrine toner in Chinese medicine. It is reputed to support the adrenals, the pair of small glands directly above the kidneys that secrete steroidal hormones, norepinephrine and epinephrine, the "fight or flight" hormones. People with high blood pressure or edema, or pregnant women, should avoid it. • Ashwagandha-an Ayurvedic herb used for thousands of years in the traditional healing of India as a potent strength builder for men and women. Experienced herbal practitioners acquire an impressive and fascinating store of knowledge and experience-you'll find it helpful to visit one as you begin your course of ginseng or other energy-boosting herbs. TCM Visitation When you visit a TCM practitioner, you'll notice that she evaluates your body's condition through an extremely careful examination of all the different systems: Several pulse points are felt in order to ferret out and detect troubling abnormalities. The condition and color of the tongue is observed to decipher digestive disorders. In addition, your urine may be examined to determine other imbalances and specific health problems. In many cases, your TCM practitioner will recommend ginseng as an adaptogen that can give you an overall boost. When taking ginseng, follow the directions on the package. Note: in some cases, you may want to consume a little bit less if you suffer headaches, insomnia or high blood pressure. Consult your health practitioner if you are afflicted with either acute inflammatory disease or bronchitis. Then take comfort in the eternal soothing wisdom of Chinese Traditional Medicine. In the first century A.D., the Shen Nong Ben Cao Jing (The Divine Husbandman's Classic of the Materia Medica) effusively described ginseng and the tonic herbs in this beguiling and intriguing manner: "The first class of drugs...are considered to perform the work of sovereigns. They support human life and they resemble heaven. They are not poisonous regardless of the quality and duration of administration."
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=353) Energy Vitamins
Date:
June 11, 2005 05:50 PM
Energy Vitamins by Daniel Mowrey, PhD Energy Times, June 7, 1998 Do you suffer groggy mornings clouded with tired and achy feelings? Do you have to struggle to muster sufficient energy to cope with the day? Then, throughout the morning and afternoon, does frequent fatigue, weakness or depression persist on your horizon like an ugly storm cloud? And your evening may bring little relief as you slump into bed for a restless night, only to begin the same routine the next morning. If lack of vim and vigor plagues your days and nights, your body may be suffering from an inability to synthesize sufficient energy. Our lives depend on processing the food we eat into substances our cells can take in and use. In a never-ending cycle, our body breaks food down and reconstructs the components to form body structures and burn as energy. How much you exercise, the food and supplements you eat and how much you sleep influence the efficiency of these processes. Vitamins and Energy Certain nutrients are called vitamins because they are crucial for vitality. These nutrients are essential to a productive life, the starting point for all life-giving and life-sustaining processes. Because of vitamins' crucial role in energy production, many people can perk up their stamina simply by consuming an adequate supply of vitamins in their daily diet. Since many vitamins - especially the ones concerned with energy - must be constantly replenished, a decent diet and the right supplements must be consumed every day. Be Energetic with B Vitamins Vitamins, especially the B vitamins, play extremely important roles in producing cellular energy. Their most important roles are shown in the illustration on page 48. The chart on page 46 lists the key vitamins and describes their effects as well as the consequences of not getting enough of them. Their effect is felt most profoundly in the energy producing process known as the Krebs cycle (which we'll explain in a moment). Vitamins B2 and B3, for example, supply the major building blocks for substances called flavin adenine dinucleotide (FAD and FADH) and nicotinamide adenine dinucleotide (NAD and NADH) which are critical elements of producing energy in the Krebs cycle as well as a process called oxidative phosphorylation. Even though you may never have heard of NAD and NADH, these molecules are found in many places in your body; they play a role in hundreds of biochemical reactions in all kinds of cells. B vitamins also combine with other materials to build coenzymes, chemicals which help form other chemicals necessary for cellular energy. B vitamins are crucial: miss out on one or more and you may break these metabolic chains necessary for peak energy. Energy to Spend The main energy currency of every cell is ATP: adenosine triphosphate. This material is used by cells for every imaginable task including reproduction, growth, movement and metabolism. Specialized metabolic cycles within the cell are designed to generate ATP. Consequently, the more ATP our cells create, the more energy can be generated. The raw materials used to make cellular energy are glucose (blood sugar) and "free" fatty acids. The best way to supply your cells with the sugar they need is to consume complex carbohydrates which also supply fiber and other nutrients. When you eat carbohydrates, they are made into glucose which is stored as a starch called glycogen in muscles and the liver. Your body can rapidly turn glycogen into glucose for extra energy (The process of making energy from glycogen yields carbon dioxide and water as well as ATP.) Making Energy The first step in making glucose into energy is called glycolysis. This complicated process requires nine different steps. During these steps, glucose is made into a substance called pyruvate. The process of glycolysis requires ATP, but yields twice as much ATP as is present when it starts. From here, the process gets a little more complicated as pyruvate enters into a complex chain of events in tiny cellular structures called mitochondria. (Many metabolic events take place in the mitochondria.) The pyruvate molecules are converted to a molecule known as acetyl coenzyme A and eventually made into carbon dioxide, water and more ATP. This process is known as the Krebs cycle or citric acid cycle. It also involves a series of events known as oxidative phosphorylation in which NADH formed during the Krebs cycle is oxidized to form ATP. Why is fat such a concentrated source of energy? Free fatty acids enter the Krebs cycle to help generate ATP much more efficiently than glucose - producing roughly six times more energy per gram than glucose. Get Your Vitamins Every Day While we rely on our diet to supply many of our vitamins, a B complex supplement and multi-vitamins can ensure you consume sufficient amounts of these crucial nutrients. Many experts agree that a diet rich in raw fruits, nuts and vegetables that minimizes saturated fat can supply adequate a-mounts of these nutrients. Other supplements that may aid energy production: Alpha Lipoic Acid, an antioxidant that works in the fatty tissues of cell membranes and in cells' watery interiors. CoQ10, a nutrient that protects cell membranes, especially of the heart, against oxidation and toxins. Plus, herbs such as suma, ginseng and licorice root as well as creatine, carnitine and pyruvate. Of course if you suffer from any long term, intractable fatigue, consult your health practitioner. But for most cases of decreased vim and vigor, adequate vitamins should help your body recover your get up and go.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=299) Better Bones
Date:
June 11, 2005 05:24 PM
Better Bones by Deborah Daniels Energy Times, March 13, 2004 As America ages, osteoporosis, a weakening of the bones, grows into an ever-expanding problem. Currently, it affects more than 44 million Americans. Women are in special danger; of those who suffer weak bones, about 35 million are women. This problem causes a huge amount of damage-physical, emotional and financial. The national bill for hospital and nursing care for osteoporosis victims tops $17 billion a year, about $47 million a day. Odds are, your bones need help. According to the National Institutes of Health, the bones of more than half of all Americans over age 50 are weak enough to put them at risk of osteoporosis. Weak bones linked to osteoporosis continue to present a serious risk to health. A study published in the British Medical Journal shows that fractures in older people are just as life-threatening today as they were two decades ago (2003; 327:771-5). When researchers looked at broken legs among more than 30,000 people over the age of 65, they found that just as many people die today after these kinds of bone breaks as they did during the 1980s. Their findings emphasize how important strong bones are to survival. This study showed that breaking your leg at age 65 or older increases your risk of death more than 12 times. And these high death rates, according to the researchers, reinforce the fact that preventing osteoporosis saves lives. Blowing Smoke Through Bones While many bone experts blame the high rate of osteoporosis on sedentary lifestyles and foods low in calcium, Australian research has turned up another bone-weakening villain: smoking. According to these scientists, smoking may be the most destructive lifestyle habit that destroys bone in older women. While other studies have pointed to smoking as a factor in bone loss, this most recent study purports to show that smoking may be one of the most important influences on weak bones (J Bone Min Res 9/03). " This will be an important step forward in the management of osteoporosis, since the results of this study can be used to improve current approaches to preventing bone loss," says researcher John Wark, PhD. Dr. Wark's study found that older smokers are particularly prone to weak bones. While smoking is always bad for bone strength, after menopause tobacco smoke seems to exert an even deadlier affect on your skeletal support. " [T]he damaging effects of cigarette smoking may well have been underestimated in the past," says Dr. Wark. When you inhale cigarette smoke, your lungs are exposed to about 500 harmful gases, including carbon monoxide, carbon dioxide, benzene, hydrogen cyanide and ammonia. The infusion of these gases cuts back on the available oxygen used for building bone and other tissues. Along with these gases, small particles containing chemicals like anatabine, anabase, nicotine, monicotine and other carcinogens also filter into the lungs. Studies (Acad Ortho Surg 2001; 9:9) indicate that bathing the body in these chemicals results in: Bone Building While it's never too late to build more bone, the best time for laying down a dependable musculoskeletal foundation is before age 30. That way, as you get older, your strong bones can better resist the weakening effects of aging. Ipriflavone is a natural chemical that has been found to help protect bone. Researchers believe that this supplement can help bones strengthen by absorbing more calcium (Calc Tissue Int 2000; 67:225) Other ways to make bones stronger include: Weak bones can put a severe crimp in your lifestyle and put your life at risk. How can you tell what shape your bones are in? Health practitioners can help you get the appropriate bone density test. But the tone of your muscles are also a good indicator: Exercise to tone those muscles and chances are you're building your bones, too. All you have to do is get moving!
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=297) 
Date:
June 09, 2005 05:36 PM
Energy Vitamins by Daniel Mowrey, PhD Energy Times, June 7, 1998 Do you suffer groggy mornings clouded with tired and achy feelings? Do you have to struggle to muster sufficient energy to cope with the day? Then, throughout the morning and afternoon, does frequent fatigue, weakness or depression persist on your horizon like an ugly storm cloud? And your evening may bring little relief as you slump into bed for a restless night, only to begin the same routine the next morning. If lack of vim and vigor plagues your days and nights, your body may be suffering from an inability to synthesize sufficient energy. Our lives depend on processing the food we eat into substances our cells can take in and use. In a never-ending cycle, our body breaks food down and reconstructs the components to form body structures and burn as energy. How much you exercise, the food and supplements you eat and how much you sleep influence the efficiency of these processes.
Vitamins and Energy
Be Energetic with B Vitamins Vitamins B2 and B3, for example, supply the major building blocks for substances called flavin adenine dinucleotide (FAD and FADH) and nicotinamide adenine dinucleotide (NAD and NADH) which are critical elements of producing energy in the Krebs cycle as well as a process called oxidative phosphorylation. Even though you may never have heard of NAD and NADH, these molecules are found in many places in your body; they play a role in hundreds of biochemical reactions in all kinds of cells. B vitamins also combine with other materials to build coenzymes, chemicals which help form other chemicals necessary for cellular energy. B vitamins are crucial: miss out on one or more and you may break these metabolic chains necessary for peak energy.
Energy to Spend Consequently, the more ATP our cells create, the more energy can be generated. The raw materials used to make cellular energy are glucose (blood sugar) and "free" fatty acids. The best way to supply your cells with the sugar they need is to consume complex carbohydrates which also supply fiber and other nutrients. When you eat carbohydrates, they are made into glucose which is stored as a starch called glycogen in muscles and the liver. Your body can rapidly turn glycogen into glucose for extra energy (The process of making energy from glycogen yields carbon dioxide and water as well as ATP.)
Making Energy From here, the process gets a little more complicated as pyruvate enters into a complex chain of events in tiny cellular structures called mitochondria. (Many metabolic events take place in the mitochondria.) The pyruvate molecules are converted to a molecule known as acetyl coenzyme A and eventually made into carbon dioxide, water and more ATP. This process is known as the Krebs cycle or citric acid cycle. It also involves a series of events known as oxidative phosphorylation in which NADH formed during the Krebs cycle is oxidized to form ATP. Why is fat such a concentrated source of energy? Free fatty acids enter the Krebs cycle to help generate ATP much more efficiently than glucose - producing roughly six times more energy per gram than glucose. Get Your Vitamins Every Day While we rely on our diet to supply many of our vitamins, a B complex supplement and multi-vitamins can ensure you consume sufficient amounts of these crucial nutrients. Many experts agree that a diet rich in raw fruits, nuts and vegetables that minimizes saturated fat can supply adequate a-mounts of these nutrients. Other supplements that may aid energy production: Alpha Lipoic Acid, an antioxidant that works in the fatty tissues of cell membranes and in cells' watery interiors. CoQ10, a nutrient that protects cell membranes, especially of the heart, against oxidation and toxins. Plus, herbs such as suma, ginseng and licorice root as well as creatine, carnitine and pyruvate. Of course if you suffer from any long term, intractable fatigue, consult your health practitioner. But for most cases of decreased vim and vigor, adequate vitamins should help your body recover your get up and go.
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