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Bilberry Extract Is A Powerful Antioxidant That Strengthens Veins ![]() ![]() ![]()
Date:
April 12, 2008 11:06 AM
Bilberry extract is taken from the Vaccinium myrtillus, or bilberry, a small blue berry that has been used traditionally for the treatment of conditions now known to be due to inflammation and the action of free radicals on the body. Among these is atherosclerosis, or hardening of the arteries, caused by the free radical oxidation of the low density lipids that carry cholesterol around the bloodstream, and that cause deposition of fatty plaques on the arterial walls and eventually constricts them to a stage that can cause heart failure or a stroke, depending on whether the arteries are close to the heart or in the brain. However, additional to treating this condition, bilberry has also traditionally been used for the treatment of varicose veins and also for certain eye conditions. In fact it was during the Second World war that the Royal Air Force in Britain received reports from pilots that their night vision improved after eating bilberries. Not only their vision, but the restoration of night vision after exposure to glare. This was extremely important to war-time pilots who had to be able to rapidly adapt their vision to fly their plane after exposure to searchlights and explosive detonations. That is the reason for anything that appeared to promote this essential adaptation to be reported. The pharmacology of these effects have been found to be due to the anthocyanosides in which bilberries are particularly rich. Anthocyanosides consist of an anthocyanaidin backbone, to which one of either arabinose, galactose or glucose can be bound. Since bilberry contains five of these anthocyanadins, then there are fifteen different anthocyanosides in the fruit concentrate. The area of the retina that appears to control night vision, and the transition from day to night sight, is called the epithelium which is connected with purple vision. Anthocyanosides seem to have an affinity for this part of the retina, and in so doing plays an important part in this type of vision, specifically night vision although it is also beneficial in improving day vision. Although bilberry also contains vitamins A and C, hydroquinone and tannins, it is the anthocyanosides that provide it with its unique antioxidant properties, and also its effect upon collagen fibers. It can cross-link collagen fibers to help overcome weaknesses in the connective tissues such as cartilage, tendons and the walls of blood vessels. Its effect as an antioxidant is to prevent the cleavage of collagen by the cyzymes that are secreted by leukocytes generated by the immune system. By preventing histamine release, and release of prostaglandins and other proteins and cells mobilized during the immune inflammatory response to the detection of foreign invasion into human tissue, anthocyanosides can help to reduce inflammation and to protect against other extreme reactions of the immune system that can harm the organism it evolved to protect. The most powerful property of anthocyanosides are their antioxidant properties: perhaps even its only property once all of the conditions it helps to protect against are fully understood. An antioxidant combines with free radicals and destroys them. Free radicals are particularly vile chemical entities that require an electron to make them stable, and they take this electron from the nearest source. This can result in oxidation and destruction of many bodily tissues leading to premature aging, atherosclerosis, eye damage and many other problems that result from the destruction of body cells and tissue. The various constituents that make up bilberry act in concert to scavenge the free radicals and increase the supply of oxygen to the eye. The benefits of this are in helping to prevent cataracts and glaucoma, the latter due to the effect of the anthocyanoside cross-linking effect on the structure of the collagen in the eye. It can also help in cases of macular degeneration that affects the central area of the retina which might be due to the same property of there glucoside. Moving away from the eyes and back to the vascular system, the collagen cross-linking properties of the flavonoids, which is what anthocyanosides basically are, can help to repair damaged vein tissue by strengthening the vein walls themselves, and also by providing support for the cell membranes, or outer layers of the cells. This in turn builds up more strength in the vein tissue below the outside walls and contributes to an overall reduction in the weakness of the vein. This in turn enables it better to withstand the internal pressure put upon it by the failure of the valve that created the problem. In this way bilberries can be used to help repair the damage done by varicose veins and improve the function of the vein in returning blood to the heart from the extremities of the legs and also to help reduce the pain and swelling of varicose veins. In addition to these beneficial effects on the vascular system and the eyes, bilberry can also help to decrease the permeability of the blood-brain barrier to pollutants, drugs and other undesirable chemicals by improving the resistance of the capillaries in the brain to the transfer of such substances through their walls. It does so by preventing the collagen of the capillaries in the brain being degraded either by enzymes or other agents, Also, by helping to strengthen that collagen structure so that it becomes more impermeable to the larger molecules that form the pollutants. A lesser known constituent of bilberry is myrtillin, an anthocyanoside monoglucoside that is also available in all green plants, that possesses anti-glycemic properties. What this means is that it can reduce hyperglycemia and glycosurea, and so reduce blood sugar without reducing the blood sugar level to dangerously low levels. In other words it is an ideal insulin substitute. Native Americans used green plants for teas for centuries and were free from diabetes until the came into contact with Europeans and adopted their dietary habits. Although the case has to be proved, it appears highly likely that it was the myrtillin that kept them free from a condition that affects so many other races. Irrespective of that, however, it is for its powerful antioxidant effect that bilberry finds its best use, and also its effects on varicose veins. However, all of the above health benefits that bilberry provides, can likely be Laid at the door of the combined antioxidant effect of its vitamin C content and the anthocyanosides – including the glucoside myrtillin.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1753) Astaxanthin, a Member of the Carotenoid Family, is a Powerful Antioxidant ![]() ![]() ![]()
Date:
January 31, 2008 09:00 AM
Astaxanthin is a member of the carotenoid family responsible for the red color of many types of algae. Being a carotenoid, it is a powerful antioxidant and free radical scavenger as well as support proper eye function. However, such a bland statement belies the true worth of astaxanthin in its fight against free radicals. It is of particular benefit in its ability to absorb the high energy of singlet oxygen, releasing it as heat, and returning the singlet oxygen to its ground neutralized state. Singlet oxygen is a particularly harmful and reactive oxygen species of free radical that is formed in the body as part of our normal metabolism, and that contains a high level of free energy that can be used to oxidize and destroy the cells of your body. In achieving this, astaxanthin is regarded as one of the most potent plant derived antioxidants known, being up to ten times more active than beta carotene, Lutein or its cousin canthaxanthin. So why are antioxidants so valuable to our biochemistry and what would happen if they did not exist? Free radicals are thieves that use your body as their operating ground. They operate by stealing an electron from a molecule that comprises part of you, and in some cases when this occurs the cell from which the electron is removed is destroyed. Generally electrons go around in pairs, but occasionally an electron pair can lose one of the electrons during a chemical reaction. Many such reactions occur naturally inside the body, especially during the production of energy from blood sugars in the mitochondria, and such a molecule containing a single unpaired electron is called a free radical. Free radicals are also generated by the reactive components of many pollutants such as traffic fumes and cigarette smoke, tars and pesticides, and also by the effect of UV radiation in sunlight. The only purpose of a free radical is to steal an electron from the first source it can find. Such reactions occur very rapidly after the free radical has been generated, and if this electron belongs to another body cell, then the cell is destroyed leading to effects such as premature aging or even cancers. Free radical oxidation of the LDL lipids that carry cholesterol around the blood causes the deposition of fatty plaques inside arterial walls that eventually become constricted or even blocked, leading to heart disease or strokes. That is why antioxidants that destroy these free radicals are so prized, and the more of them that there are in your body then the less affect the free radicals will have on you. You will retain your youthful looks longer, and will be less liable to suffer from heart disease, cancers, circulation problems and conditions such as diabetes. Many abnormal conditions can be Laid at the door of free radicals. The stronger the free radical, the more harm it can do to you and a strong antioxidant such as astaxanthin is a very powerful weapon in your armory against them. Astaxanthin is a member of the oxygenated xanthophylls, and its high level of antioxidant power likely comes from the ketonic and hydroxyl functional groups of the ionone ring structure. It is more polar than most carotenoids, and this is a likely reason for its ability to span the cell membrane layers, with the active groups close to the hydrophilic-hydrophobic interface. They are thus more readily available at the sites where most free radicals tend to be found and provide immediate protection to the cell membrane and also to the intracellular mitochondrial membrane. Many antioxidants destroy free radicals by donating an electron, and become oxidized themselves. Astaxanthin, however, does not do this, but instead adds the free radicals to its long double bonded chain hence avoiding oxidation and rendering it much more powerful than normal antioxidants. It is unusual among antioxidants in that it is also able to cross the blood-brain barrier, and so reduces oxidative stress that can cause neurological disorders in general, and also problems with eyesight. It can also attach itself to lipoproteins to enable it to be carried throughout the bloodstream, being available anywhere that free radicals are generated. The carotenoid is also active against active oxygen species that are responsible for inflammation. Another property is its ability to neutralize the oxygenated free radicals formed by the photo-oxidation properties of UVA and UVB radiation. Included in these are the previously mentioned highly reactive singlet oxygen and also triplet oxygen that astaxanthin is able to neutralize without becoming oxidized. In fact reactive oxygen species in general can cause oxidative stress, and they have been thought responsible for many forms of disease and health conditions, and the powerful effect of astaxanthin in targeting many of these has led it to be regarded as highly beneficial to the immune system and to health in general. Another benefit is the ability of the substance to help prevent the oxidation of high density lipoproteins (HDL) that are responsible for carrying cholesterol in the blood back to the liver for destruction. Free radical oxidation of HDL impairs its ability to transport cholesterol, and so decreasing the level of such free radical oxidation will by definition increase the quantity of good HDL available, and hence reduce the concentration of cholesterol in the blood. Studies have proved this to be the case, and astaxanthin supplements are very beneficial to those suffering from high blood cholesterol levels, and helps protect them from heart disease and strokes. The substance is naturally available from a wide range of marine sources, such as lobsters (where it was first discovered), shrimp, salmon, trout and in a wide variety of red and green algae. The substance is also used as a red pigment. Carotenoids are essential, meaning that they are not produced in the human body and can only be obtained in our diets. For that reason, the most convenient way to take it, apart from continually eating shrimp and lobster, is as a supplement. Astaxanthin is available either as a powerful antioxidant in its own right, or in combination with other substances with which it acts to provide a very strong deterrent to any free radicals that think they can freely roam your body.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1711) Cranberry May Have More Uses Than Just Bladder Infections ![]() ![]() ![]()
Date:
November 03, 2007 01:04 PM
The effects of cranberry on bladder and other urinary tract infections are well known. The infections are caused by a bacterium, Escherichia coli, known to most people as E. coli that attaches to the wall of the bladder or the urinary tract, and is very difficult to dislodge with antibiotics once it is there. Cranberry contains a glycoprotein that prevents the E. coli from doing this, and so acts by preventing, not the invasion of the bacterium itself, but the mechanism by which it causes the disease. Drinking cranberry juice on a regular basis can prevent cystitis occurring in women, or at least reduce the frequency of incidences. Now, however, there is a growing body of evidence that cranberry may have more uses than just for bladder infections. It is known to help prevent gum disease by the same mechanism: the bacteria are prevented from sticking to the teeth and gums by means of the same glycoprotein that is effective with E. coli and urinary tract infections There is also evidence that cranberry juice can be helpful in resolving ear and respiratory infections. A study of a group of children in 2002 has indicated that cranberry juice can inhibit the adhesion to red blood cells of certain strains of the bacterium Haemophilus influenza that might cause a large proportion of middle ear infections. It seems to have an effect on the hair-like pili, by which bacteria stick to surfaces. This has been supported by results that indicated no effect on the bacteria strains that lack these pili. These tests, however, were carried out experimentally in test tubes, but it is worth keeping in mind that such studies are under way, and that the results are looking very promising. However, they have not yet reached the stage where they can be stated to have been proved, though there is no reason why you should not try cranberry juice if any of your family is prone to such infections, especially of the middle ear. Yet another study has established that cranberry might be effective in reducing the risk of heart disease by reducing the oxidation of blood cholesterol that makes it very sticky. There are two type of cholesterol, LDL cholesterol that carried the cholesterol from the liver through the blood to areas of your arteries that need repair. Your blood also contains high density lipoproteins (HDL) that carry excess cholesterol back to the liver for destruction and ejection from the body – that is the so-called ‘good’ cholesterol. The LDL cholesterol works much like putty, covering the cracks in arterial walls, and without it you could have even more severe problems than with high levels of LDL cholesterol. However, when the LDL cholesterol gets oxidized by, for example, free radicals in the blood, then it becomes sticky and too much of it gets Laid down on the artery walls. Free radicals are produced through many agents, but the most common are smoking, environmental pollution and pesticides. These sticky coatings tend to build up after a time and lead to a condition known as atherosclerosis whereby the build up of coating can severely restrict the artery. This causes high blood pressure and can even lead to the artery becoming completely blocked. This can lead to serious heart problems and, if the artery is in the brain, even strokes. In the study, a group taking one, two then three glasses of 27% cranberry juice daily for a month at a time were found have a 40% reduced risk of heart disease at the end on month three due to a 10% increase in the good HDL cholesterol. This was due to the antioxidant effect of the cranberry juice preventing the oxidation of the LDL cholesterol which causes the problems. Antioxidants mop up free radicals before they can do any damage. Cranberries contain a high polyphenol content, and it is believed that it is these antioxidants that are responsible, though this has still to be proved. This antioxidant effect can also reduce the risk of cancer, render you less liable to inflammatory conditions and also give your immune system a boost by helping to clear up the free radicals that are one of your body’s worst enemies. However, that is not all that cranberries can do. There are even more exciting new developments that could have an impact on women suffering from ovarian cancer. The Centers for Disease Control and Prevention record that ovarian cancer is the 7th most common type of cancer in the USA, and the 5th most common cause of cancer deaths amongst women. The general treatment for ovarian cancer is by chemotherapy using the platinum drugs Paraplatin and Cisplatin. The problem with these drugs is that cancer cells can become resistant to them, and if higher doses are used it can lead to side effects including renal failure and nerve damage. Tests were carried out using ovarian cancer cells and a 27% solution of cranberry juice, a common commercially available concentration. The cells were then treated with Paraplatin. It was found that the Paraplatin was six times more effective at killing the ovarian cancer cells than when the cells had not come into contact with the cranberry juice. This is a considerable difference. The rate of spread and growth of some of the other cancer cells were also reduced. The reason that the cranberry was used was due to its wide range of potential health benefits in fighting stomach ulcers, cystitis and some other cancers. It is believed that the effect is due to very powerful antioxidants known as A-type proanthocyanidins, which are found only in cranberries. Other studies have found this chemical to have had an effect in inhibiting the growth of cancer cells in lung cancer, colon cancer and leukemia, all involving different types of cancer cell. Other antioxidants such as flavenoids and querticin in cranberry juice might also contribute, but the proanthocyanadin is believed to be the principal active agent due it being found only in cranberries. The researchers temper their results with the caution that these are tests only, but that theoretically a cranberry supplement could be used as a part of a chemotherapy course. Animal studies are commencing shortly though it will be some time before a new therapy has been developed. It is possible; however, that the therapy could consist of a simple oral dose of cranberry juice taken during the course, but you should consult your physician for the most appropriate treatment for you. However, what is certain is that cranberry may have more uses than just bladder infections.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1616) Omnivore Vs Vegan Who Is Right? ![]() ![]() ![]()
Date:
October 21, 2007 07:02 PM
The omnivore vs vegan argument as to who is right and who is wrong can be argued from a number of different platforms. There is the ethical issue of whether we should eat other animal life, and also the argument as which is ‘better for you’, based on arguments such as vitamin B12 is not available from a vegan diet. There is even the ‘lifestyle’ argument: does our lifestyle define our diet? However, strictly, the only argument for or against either diet should only be made upon human biochemistry. Do both meet the needs of our biochemistry, or does one or the other lack something essential in our biochemical pathways? Obviously omnivores will lack nothing except by choice, since all foods are available for their consumption. If vegans do lack a specific chemical need, then is that available as a supplement in a form that can be effectively used in the chemistry of our bodies. The one argument accepted by both sides is that it is essential for all animals to consume living things in order to stay alive themselves. These living thinks need not be alive at the time of consumption, but it is necessary that they eat the flesh of plant or animal life that at one time was alive and contained DNA. What that infers is that it is only vegetables that can survive on non-living tissue and this appears to be borne out in practice. No living animal known can live on inorganic matter only, but most plants can and do. Not all though, the Venus fly trap being an example. It is easy to extend the moral problem of eating living tissue to living vegetable tissue that also contains DNA, and the argument must lie between animal and the derivatives of animals, and non-animal tissue. It has not yet been found that any organism has yet crossed the animal-vegetable divide, so the division is a valid one. That might seem obvious, but it is necessary to establish that for the argument between vegan and omnivore diets to be valid. The consumption of protein derived from meat is not a prerequisite for size and muscle bulk, since the largest dinosaurs in the world were all herbivores, the largest being a member of the sauropod family at more than 175 tons, eclipsing the largest meat eater, the gigantosaurus at 8 tons. Thus, meat does not mean bulk. However, what has been proved is that the fastest creatures are carnivores. Hence if you want to be a top class sprinter, eat meat! Carnivores, with their lean muscle mass and highly efficient quick use of available energy, have very short digestive tracts which are not good for digesting vegetable matter, but make best use of animal proteins and expel unnecessary mass from the body quicker. The argument in favor of the vegans is that the human digestive tract is not that of a carnivore. In herbivores, the food takes longer to digest, and hence it remains in the digestive system longer. This means a longer alimentary canal, longer than humans have. Herbivores also move slowly, and a good example is the comparison of speed between the omnivorous chimpanzees and other small monkeys and the herbivorous gorillas and orangutans. On the one hand you have lean fast moving machines, while on the other you have large bellies and slow moving larger animals. Check out cows and sheep and compare their body fat with ours. Nor are we like herbivores. So what are humans? Omnivores! Our teeth and intestines are those of omnivores, the teeth designed for ripping and tearing meat, and stripping leaves from trees, but also for grinding grains, and our intestines are something between the long and the short. People are able to eat and live on every type of food imaginable from brains to intestines to leaves to roots to ants and grubs. The argument is therefore futile to consider historically. Let’s then study the advantages and disadvantages of each type of diet. Human beings are capable of life through consuming either animals or plants, or both. The argument seems, therefore, to be one of morality rather than biochemistry. However, is that really so? The vegan refusal to eat dairy products should not be taken as extremism, since the human being is the only animal species to drink milk of another species, or to use it to make other products. It is a practice born long after cattle were husbanded by humans for food. The problem with eating animal products lies not in the meat itself, but in the fat. Animal fat is saturated, which means that the fat molecule has no active double bonds in the chemical structure that can be used to break the fat down. Animal fat also contains cholesterol, yet we cannot survive without cholesterol. It is the human band aid, used by the body to patch up damage to the cardiovascular system. Only, sometimes, too much is Laid down and the arteries get blocked. However, many vegetable products have more saturated fats and cholesterol than many animal products, so a balance is called for. The unsaturated fats and oils for humans are said to be derived from seeds, such as flax seed and fish, especially oily fish. These are the Omega-3 oils. Although they can be obtained from some seeds and nuts, it has been proved that the best come from oily fish, such as wild salmon, mackerel and sardines. The B vitamins are essential for life. The best sources are animal sources, though you get them from some vegetable sources such as brewers years (who eats lost of that?) and others, but animal sources are the best. Also, there is no evidence to suggest that vegans live longer than omnivores. In fact all of the evidence indicates that a middle road is the best. For human beings the healthiest diet includes both meat and vegetable tissue. The best solution to good health is neither vegan nor carnivore. Nor is it traditional vegetarian, since it is the dairy products that cause many of our dietary products. Studies of the biochemical pathways have demonstrated that all chemicals need to sustain healthy human growth and life are not available from a classic vegan diet. Some animal protein and B vitamins are essential that cannot be obtained form a normal vegan diet. It is possible, however, to maintain life by means of supplements. However, for the healthiest form of human life, our biochemistry, history and physiology indicate that there is a balance somewhere between the extremes of both views that is right for us, and that either diet can be sustained with appropriate supplementation based upon what is missing from one diet or the other. So, omnivore vs vegan. Who is right: both are right if they also supplement any nutritional deficiencies in their diet with vitamins and minerals that may be lacking from one diet or the other.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1598) Pancreatin 8x Digestive Enzymes for Total Health ![]() ![]() ![]()
Date:
June 08, 2006 06:29 PM
A healthy pancreas positively affects the energy of the entire body. Pancreatic hormones are regulators of blood sugar through insulin and glucogen. If the pancreas is compromised, it becomes overworked by trying to produce enzymes for digestion. Important energy hormones are not produced, leading to possible blood sugar imbalances.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1309) HERBAL EXTRACTS FOR IMMUNE SYSTEM SUPPORT ![]() ![]() ![]()
Date:
December 23, 2005 12:27 PM
Nature’s Apothecary"HERBAL EXTRACTS FOR IMMUNE SYSTEM SUPPORT AND DETOXIFICATION" For years, Nature’s Apothecary’s reputation for producing high quality natural products, specifically multi-herb and single herb extracts and aromatherapy products, has been unparalleled. This family-owned, environmentally-conscious herbal extract company has Laid deep roots on the front range of Colorado’s Rocky Mountains, and in the natural products industry as well. NOW® is proud to continue their tradition of excellence in providing only the highest quality natural herbal extracts with the purchase of this premier liquid herbal extract supplier. We’re committed to using the same processes and procedures that have made the Nature’s Apothecary line one of quality and longevity. Nature’s Apothecary herbal extracts are created with pure herbs grown on small organic farms, or herbs that have been ethically hand-harvested with respect for the earth, just as herbalists have done for thousands of years. While the various herbs used in these formulations offer a broad range of health benefits, two of the most important are immune system enhancement and detoxification. Herbs have a long history of usefulness in these categories. There is evidence of the use of herbs by Stone Age humans, who either cultivated or gathered hundreds of herbs and plants for a variety of uses. The histories of various cultures are filled with references to the use of herbs. Ancient Sumerians, Egyptians, Romans, Greeks, Chinese, Europeans, and American Indians – all used herbs to heal and to nourish. Herbs that support the immune system and provide detoxification benefits were, and still are, very popular. Two of the most effective are Astragalus and Shiitake Mushroom. Astragalus (Astragalus membranaceus) is a member of the legume family and is considered an adaptogenic herb in traditional Chinese medicine, where it has been safely used for centuries. Native to central and western Asia, specifically China, Korea and Taiwan, Astragalus offers a unique benefit found in very few herbs - it seems to selectively support immune system function by stimulating certain immune functions and depressing others. One reason is that Astragalus has a high selenium content, a trace element with documented immune system benefits. It also contains polysaccharides and flavonoids, which support healthy immune system function as well as minimizing the effects of free radicals on various membranes. The mechanisms of action through which Astragalus supports immune system function are varied. It has shown promise as a means to stimulate “resting” immune system cells, increasing their activity. Research shows that Astragalus supports the body’s production of immunoglobulins, macrophages, T cells and natural killer (NK) cells, the grunts of the immune system’s army. Astragalus has been shown to support healthy cardiovascular function by protecting membranes from oxidative stress as a result of free radical damage. Shiitake Mushroom (Lentinula edodes) is a culinary delight with some serious health benefits. The name Shiitake is from a combination of shiia, the Japanese word for a variety of chestnut tree, and take, the Japanese name for mushrooms. Shiitake is also referred to as the Forest Mushroom and the Black Forest Mushroom. Indigenous to Eastern Asia, primarily Japan and China, Shiitake is Japan’s leading agricultural export, accounting for about eighty percent of the world’s Shiitake production. While it’s culinary reputation is well-known, Shiitake is also a medicinal herb with a long history of use. In traditional Chinese medicine (TCM), Shiitake is well-regarded and has been used to treat a variety of ailments. Modern research has shown that Shiitake supports healthy immune system function and cardiovascular health, primarily due to the naturally-occurring nutrients found in Shiitake. It contains an excellent B vitamin profile, as well as amino acids, protein, iron, and beta glucan, a major structural component in the cell walls of most fungi, including Shiitake. Beta glucan has been shown to support healthy immune system function by stimulating the activity of phagocytes, white blood cells and NK (natural killer) cells, vital components of the body’s immune system defenses. Astragalus and Shiitake Mushroom are just a few of the immune supporting herbal extracts to be found in the Nature’s Apothecary line. With over 250 SKU’s, Nature’s Apothecary is your best source for high-quality, effective herbal extracts.
References:
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1071) Source Naturals - From Formula to Implementation ![]() ![]() ![]()
Date:
August 20, 2005 11:45 AM
“Overseeing and tracking the manufacture of approximately 500 different products is a challenging and very satisfying responsibility. I take pride in making sure all aspects of manufacturing—material rotation and pulling, mixing, wet granulation, milling, tableting, and encapsulation—run smoothly and efficiently. –Dale Nemecek, Manufacturing Supervisor From Formula to Implementation Source Naturals’ manufacturing team has an enormous responsibility: bringing to fruition the plans so carefully Laid down on paper by our research and product development staff. Here’s how. Premium Ingredients Because grinding or cutting increases the exposure of plants to light, heat and air, and can cause a powdered herb to degrade, whole herbs are milled on site. The result is fresher, more potent botanicals. Source Naturals also seeks to minimize excipients (non-active ingredients) in tablets and to use the most natural sources available. Vegetable gums bind ingredients together, vegetable fiber (cellulose) improves hardness and compressibility, and modified cellulose gum facilitates disintegration after ingestion. Only natural flavorings and sweeteners are used in our lozenges or chewable tablets. Our labels provide full disclosure of all ingredients and excipients. Optimal Production Methods Ingredients are pulled from our warehouse using first-in, first-out inventory practices. Batches of measured materials are processed according to individual specifications. For tablets, roller compaction improves granulation and milling decreases particle size. Wet granulation is used when appropriate as an alternative: active ingredients are blended with water and vegetable binder, dried, milled, and compressed on a tablet press. Tablets are coated with cellulose and polished, adding a smooth, attractive surface that protects them and makes them easier to swallow. Source Naturals also has the capacity for manufacturing and filling liquids, and for in house encapsulation.
Whole herbs are milled on site, resulting in fresher, more potent botanicals.
Source Naturals
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