Search Term: " somach’s "
Digestion Boosting Best Juices To Have
Date:
November 27, 2016 06:59 AM
Many of our body issues are caused by improper digestion. These issues can include bloating and gassiness. The best things we can do for our digestive system is to avoid over-processed and oily foods that clog it up. There are also natural foods that can be eaten more often in order to maintain and boost the stomach’s function. Apples, cucumber, grapes, oranges, and celery are just a few of these foods. Key Takeaways:
"We can improve the health of our stomach and thus digestion by various home remedies such as vegetable and fruit juices that cleanses, flushes toxins and soothes the internal lining of the stomach." Reference:
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=3516) What Is Slippery Elm Bark and How Does It Help Improve Colon And Digestive Health
Date:
April 08, 2011 11:27 AM
Slippery Elm History.Slippery elm bark is an herbal remedy derived entirely from a tree species of the same name. Its use in maintaining colon health has been associated with Native Americans, who continue to use the inner bark of the tree as a treatment for skin conditions, gum problems, and sore throats in addition to digestive problems. In recent years, there have been numerous citations of its ability to significantly alleviate illnesses of the gastrointestinal tract, and its use has even been suggested by medical professionals in the treatment of inflammatory bowel disease, or IBD, such as Crohn’s disease and ulcerative colitis, irritable bowel syndrome, peptic ulcers, and abdominal pains. Ulmus rubra is a tree species native to North America, but its range and distribution is limited to Southern Quebec down to Northern Florida and west to eastern Texas. It prefers soils that are rich in moisture, with large populations present in uplands, but it also thrives well in dry regions. This deciduous tree is commonly known by the names Slippery elm, Red elm, Moose elm, and Indian elm. The name Red elm refers to its heartwood that is reddish-brown in color. The leaves and the inner bark are dried and powdered beforehand, and then made into a tea or packed as supplements. Increases Mucus Secretions Recent studies have observed that slippery elm bark stimulates the nerve endings of the intestinal walls. Excess acidity is thought to result from both the diet and the stomach’s secretions of hydrochloric acid. While peptic ulcers are often caused by invasive pathogens, cases in which the acidic environment in the stomach brings on lesions in the gastrointestinal tract are not uncommon. Slippery elm bark works on the principle of inducing the secretions of gastrointestinal mucosa, which rebalances the pH inside the digestive tract.
Slippery Elm Bark PropertiesExhibits Antioxidant Properties Researchers ascribe the effects of slippery elm bark on inhibiting inflammation of the digestive tract to its antioxidant properties. Free radicals have been tied to many diseases, and inflammatory bowel disease is believed to be influenced by an imbalance between free radicals and the antioxidant defense of the body. Indeed free radicals can cause tissue damage as each cell’s ability to neutralize them is compromised. Unfortunately they are a natural by-product of oxygen metabolism and other chemical reactions, which means the only way to dispose of them is to strengthen cellular antioxidant defense. Heals Lesions and Ulcerations Native Americans have long used slippery elm bark as an ingredient in salves used for wounds and sores. It is widely accepted that medicinal products containing powdered slippery elm bark reduce inflammation and speed up the process of healing. For the same reasons, oral administrations appear to produce similar effects on ulcerations of the alimentary canal, allaying abdominal pains. Slippery elm bark is a known cleanser for the gastrointestinal tract. People who felt benefited from it believe it eases stomach cramps and improve colon disturbances. While more studies are needed for its efficacy, slippery elm bark products are generally considered to be safe. Slippery Elm bark is excellent therapy for the digestive tract. Don’t be with out it!
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=2268) Betaine HCI and Pepsin
Date:
January 28, 2007 08:41 PM
Betaine HCI and Pepsin Betaine HCl is a form of HCl used as a nutrient to supplement the stomach’s own production of HCl, or stomach acid. While occasional indigestion may be a result of acid irritating tissue in the structure above the stomach known as the esophagus, a line of research suggests that the cause of this irritation may actually be less than optimal stomach acid production. Stomach acid is normally produced by the parietal cells of the stomach and the function of stomach acid is to break down food that enters the stomach into smaller fragments and nutrient components. These components move through the stomach into the small intestine where they are further broken down by digestive enzymes in the upper part of the small intestine. The individual nutrients that result from the digestion of proteins, fats and carbohydrates can then be absorbed and assimilated by the body and used for metabolism and growth. However, optimal stomach acid production is certainly a major step for the efficiency of the digestive process. Less than ideal stomach acid production prevents foods from being broken down properly and places an added burden on the remainder of the digestive process, including enzyme production from the pancreas. As mentioned earlier, the presence of optimal stomach acid is necessary for the digestion and absorption of critical nutrients. Amino acids and other peptides from proteins, minerals, vitamin B12 and folic acid are examples of nutrients that require proper levels of stomach acid for their absorption and usage. The presence of adequate acid in the stomach is also required for the conversion of the digestive enzyme pepsin. Pepsin is produced in the stomach from its precursor pepsinogen, which is secreted by cells known as chief cells, and functions to help with the digestion of proteins. Pepsin breaks proteins down into their amino acid components. Since stomach acid is essential to the process of absorbing our nutrients from food, lack of sufficient acid production may lead to decreased health and general well-being. Ideal stomach acid production is also essential for maintaining a healthy bacterial balance in the intestines. Firstly, acid production in the stomach itself provides a protective barrier that keeps the stomach environment safe. Secondarily, low levels of stomach acid can lead to improperly, incompletely, or poorly-digested food fragments that may cause an imbalance in the growth of normal bacterial flora in the intestines. Achieving the correct balance of flora is a key to maintaining proper digestive function and overall health. Research also suggests that the body’s capacity to produce stomach acid normally declines as we age. Moreover, stress and other factors may impact proper stomach acid production. Occasional heartburn, bloating, belching, discomfort, and a "sour stomach" may often result from this. Food that we eat enters the stomach through the esophagus, or food pipe. At the junction of the esophagus with the stomach is a muscular structure known as the lower esophageal sphincter (LES). When food enters the stomach for digestion, the LES normally contracts, narrowing the passageway between the esophagus and the stomach and preventing the backflow of stomach contents into the esophagus. A major trigger for the process of tightening the sphincter is the presence of sufficient stomach acid. When sufficient stomach acid is sensed, the LES will close. However, in conditions where there is a lack of stomach acid, the sphincter remains open, allowing stomach contents, including acid, to flow back through the opening, potentially creating a sense of irritation and discomfort. Adequate stomach acid production is an essential criterion for the sphincter to function properly and prevent the backflow of stomach contents.1 A recent study assessed the incidence and causes of low vitamin B12 levels in elderly patients. The researchers suggest that the incidence of decreased vitamin B12 in the elderly, based on results of some epidemiological studies, is as high as 30-40%. When they looked at the possible causes of low B12 levels in 200 individuals that they followed, they found that food-B12 malabsorption accounted for 60-70% of the cases.2 In other words dietary B12 is bound to foods, generally animal proteins. The protein is normally broken down in conjunction with acid and pepsin in the stomach. However, low production of stomach acid may decrease the efficiency of this process and vitamin B12 remains bound to the protein source, leaving it unavailable to be absorbed. The absorption of countless other nutrients may also be impacted by low stomach acid and pepsin levels. Gentian Root Gentian is an herb that is native to parts of Europe and Asia. The root has been used extensively by traditional herbalists to support digestive function due in large part to its bitter constituents. Its present day use as a therapeutic herb dates back to the Romans and Greeks, and related species have even been used in the Indian Ayurvedic system. Various traditional texts classify gentian as a bitter tonic and digestive stimulant, due to its ability to promote the secretion of digestive enzymes. The German Commission E has approved the use of gentian for digestive support, which leads to an increased secretion of saliva and digestive juices.3 Supplementation with the combination of nutrients and cofactors present in Betaine HCl Pepsin & Gentian supports the normal digestive function of the stomach and helps to ensure that the body maintains the efficiency of nutrient absorption from the foods that we eat. Gentian serves to stimulate digestive secretions in the stomach, priming it to digest the food that we eat, while supplemental Betaine HCl and pepsin provide support to the body’s innate production of these digestive factors. Safety Take 1 capsule with each meal, or as recommended by a healthcare professional. Scientific References 1. Wright, Jonathan V., MD and Lane Lenard, PhD. Why Stomach Acid is Good For You. New York: Evans, 2001. 2. Andres E, et al. Vitamin B12 (cobalamin) deficiency in elderly patients. CMAJ 2004; 171(3): 251-259. 3. Blumenthal M, Goldberg A and J Brinckmann, eds. Herbal Medicine: Expanded Commission E Monographs. Newton, MA: Integrative Medicine Communications, 2000.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1447) Assists Digestion of Proteins, Carbohydrates and Fats
Date:
September 03, 2005 01:30 PM
Assists Digestion of Proteins, Carbohydrates and Fats Digestive enzymes are produced by the pancreas and secreted into the duodenum (upper small intestine), where proteins, carbohydrates and fats are broken down prior to absorption. As we age, the body’s capacity to produce enzymes may decline. Moreover, stress and other health difficulties can impact enzyme production. Overeating sometimes causes incomplete digestion. Heartburn, bloating, belching, discomfort, and a “sour stomach” often result. Supplementation with the enzymes in Best For Digestion supports replenishment of the body’s enzyme level, helping to relieve the burden on an overworked pancreas. Digezyme® contains a neutral protease which, like the body’s intrinsic protein-digesting enzymes, is active in the neutral to alkaline pH range. In addition to amylase for starch digestion and lipase for fats, Digezyme® also supplies lactase, which acts on milk sugar, and cellulase, which breaks down cellulose. Benefits of Enzyme Supplementation Enzyme supplementation promotes improved digestion and delivery of vital nutrients to the system. This benefits good health in many ways, including better elimination, improved energy levels and maintenance of healthy body weight. Enzymes also help prevent accumulation of undigested foods in the large intestine, which can be a source of toxicity for the body. Supports Digestive Function According to Ancient Principles of Traditional Chinese Medicine Disturbed digestion, whether from overeating or generally poor digestive-organ function, results in sluggish movement of food through the alimentary canal and sub-optimal nutrient absorption. In traditional Chinese medical theory, the functions of transporting food and assimilating nutrients are governed by the stomach and “spleen.” The “Qi,” or vital functional energy of these organs, is complimentary in action. Stomach Qi “descends” as food travels downward through the digestive tract. Overeating and poor digestion interfere with the stomach’s normal descending function, resulting in “food stagnation.” If stomach Qi “rebels upward,” the result is nausea and vomiting. The herbs in Best For Digestion, which include stomach tonics such as Ginger root, assist the descending function of the stomach, and have been traditionally used as remedies for “food stagnation.” The “spleen” in Chinese medicine encompasses the digestive role of the pancreas. Spleen Qi normally “ascends.” This can also be explained from a Western perspective. When nutrients are absorbed, they enter the circulation through intestinal capillaries, travel upward to the liver via the hepatic portal system, and continue up to the heart, eventually to be circulated throughout the body. Several of the herbs in Best For Digestion are traditional “spleen tonics” that support the ascending of spleen Qi, thus assisting optimum nutrient absorption. Digestive Enzymes and Traditional Chinese Herbs: A Novel Approach to Better Digestion Combining digestive enzymes and Chinese herbs that support digestive function is a unique new approach to better digestion. Whether the problem is temporary “food stagnation” or a more long-term need for improved digestive organ function, Best For Digestion provides valuable assistance.
Scientific References 2. Chinese Herbal Materia Medica compiled and translated by Dan Bensky and Andrew Gamble©1986, Eastland Press, Inc., Seattle, WA. 3. Barillas, C., Solomons, N. Effective reduction of lactose maldigestion in preschool children by direct addition of ß-galactosidases to milk at mealtime. Pediatrics 1987;79(5):766-72. 4.DiPalma, J., Collins,M. Enzyme replacement for lactose malabsorpiton using a beta-d-galactosidase. J Clin Gastroenterol 1989;11(3):290-3.
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