Search Term: " Thermal "
The History of Stevia: From Ancient Sweet Leaf to Global Sweetener
Date:
May 31, 2024 11:05 AM
The History of Stevia: From Ancient Sweet Leaf to Global SweetenerStevia, a natural sweetener that has become globally popular in recent years, boasts a rich history spanning centuries. This article delves into the origins and historical significance of stevia, shedding light on its traditional use by indigenous peoples and its evolution into a mainstream alternative to sugar.
The Origins of SteviaStevia, scientifically known as Stevia rebaudiana, originates from South America. This small, green plant is part of the Asteraceae family, which also includes daisies and sunflowers. The leaves of the stevia plant contain sweet compounds known as steviol glycosides, which are responsible for its sweetness.
Traditional Use by the Guaraní PeopleThe historical journey of stevia begins with the Guaraní people of Paraguay and Brazil, who have used the plant for over 1,500 years. The Guaraní referred to stevia as "ka'a he'ê," which translates to "sweet herb." They traditionally used stevia leaves to sweeten beverages like yerba maté, a popular herbal tea, and to enhance the flavor of various traditional dishes. Stevia wasn't just a sweetener for the Guaraní; it also held medicinal importance. The leaves were used to treat a variety of conditions, including burns, stomach issues, and as a general tonic. This dual use of stevia as both a sweetener and a medicinal plant highlights its invaluable role in indigenous culture.
Stevia's Journey to the Modern WorldRediscovery by European ExplorersThe modern history of stevia began in the 16th century when European explorers first arrived in South America. Spanish botanist and physician Pedro Jaime Esteve (1500–1556) is often credited with the early European studies on stevia, although the plant was not widely documented until later. Interest in stevia grew in the early 20th century when it was scientifically studied by Paraguayan chemist Ovidio Rebaudi. Rebaudi analyzed the sweet properties of stevia leaves and confirmed that they were much sweeter than sugar, which caught the attention of the scientific community.
Introduction to Asia and BeyondIn the 1970s, stevia began gaining traction in Japan as the country sought alternatives to artificial sweeteners. Japanese researchers developed methods for extracting and refining steviol glycosides from stevia leaves, making it possible to use stevia as a commercial sweetener. The success of stevia in Japan set the stage for its global acceptance.
Stevia in the Modern Health MovementHealth Benefits and AdvantagesStevia's rise in popularity can be attributed to its myriad of health benefits. Unlike sugar, stevia is calorie-free, making it an attractive option for those managing their weight. Additionally, stevia has a negligible effect on blood glucose levels, which is beneficial for individuals with diabetes or those monitoring their carbohydrate intake. Moreover, steviol glycosides are stable at high temperatures, making stevia a versatile sweetener suitable for cooking and baking. This Thermal stability, combined with its natural origin, has positioned stevia as a preferred option for health-conscious consumers.
Regulatory Approval and Global AdoptionThe journey of stevia to becoming a global sweetener has involved rigorous scientific scrutiny and regulatory approval. In 2008, the United States Food and Drug Administration (FDA) granted stevia the status of "Generally Recognized As Safe" (GRAS), which paved the way for its use in a wide range of food and beverage products. Following the FDA's approval, other countries, including those in the European Union, Canada, and Australia, also approved the use of stevia in food and beverages. Today, stevia is found in everything from soft drinks to baked goods, reflecting its widespread acceptance and global reach.
Challenges and Future ProspectsOvercoming ObstaclesDespite its many advantages, the path to widespread adoption of stevia has not been without challenges. One of the initial hurdles was the aftertaste associated with some of the early stevia extracts. However, advances in extraction and formulation techniques have significantly improved the taste profile of stevia, making it more palatable for consumers. Another challenge has been ensuring the sustainable cultivation of stevia. As demand grows, it is essential to implement agricultural practices that support environmental sustainability and fair labor conditions for farmers.
Research and InnovationThe future of stevia holds exciting possibilities as ongoing research continues to explore new applications and improvements. Scientists are currently investigating the potential of stevia extracts in providing health benefits beyond sweetness, such as their antioxidant properties and possible roles in managing certain health conditions. Innovations in biotechnology are also paving the way for the development of new stevia varieties with enhanced sweetness and improved agronomic traits. These advancements could further solidify stevia's position as a key player in the global sweetener market.
In SummaryThe history of stevia is a fascinating journey from the rainforests of South America to the shelves of supermarkets around the world. From its traditional use by the Guaraní people to its rediscovery by European explorers and subsequent global adoption, stevia has proven to be a remarkable sweetener with enduring significance. As the modern world continues to prioritize health and wellness, stevia's natural sweetness offers a much-needed alternative to sugar, promising a future where we can enjoy the sweetness of life without compromising our health.
Are You Ready to Make a Sweet Change?If you've been searching for a healthier way to satisfy your sweet tooth, the journey of stevia offers a compelling reason to make the switch. With its rich history rooted in traditional use by the Guaraní people, and its scientifically-backed benefits recognized globally, stevia stands out as a truly remarkable sweetener. Free from calories and gentle on blood glucose levels, it's an excellent choice for both weight management and diabetes care. Plus, its versatility in cooking and baking means you won't have to compromise on your favorite recipes. Join the growing number of health-conscious consumers who are choosing stevia for a naturally sweet life. Explore its various forms—from whole leaves to refined steviol glycosides—and incorporate this natural sweetener into your diet today. Embrace the future of sweetening and enjoy the benefits of stevia for yourself and your loved ones.
Frequently Asked Questions (FAQ) About SteviaWhat is stevia?Stevia is a natural sweetener derived from the leaves of the Stevia rebaudiana plant, which is native to South America. It has been used for centuries by the Guaraní people and is known for being much sweeter than sugar while containing zero calories.
How is stevia used as a sweetener?Stevia can be used in various forms, including whole leaves, powdered extracts, and liquid concentrates. It is commonly used to sweeten beverages, baked goods, and other foods. Thanks to its stability at high temperatures, stevia can also be used in cooking and baking.
Is stevia safe to consume?Yes, stevia is considered safe for consumption. The United States Food and Drug Administration (FDA) has granted stevia the status of "Generally Recognized As Safe" (GRAS). It has also been approved for use in many other countries, including those in the European Union, Canada, and Australia.
Can stevia help with weight management?Stevia can be an effective tool for weight management because it contains no calories. Replacing sugar with stevia in your diet can help reduce overall calorie intake, which may contribute to weight loss or maintenance.
Is stevia suitable for people with diabetes?Stevia is suitable for people with diabetes as it has a negligible effect on blood glucose levels. This makes it a preferable alternative to sugar for those needing to monitor their carbohydrate intake. However, it is always best to consult with a healthcare provider before making any significant changes to your diet.
Does stevia have any side effects?Stevia is generally well-tolerated and considered safe for most people. However, some individuals may experience mild side effects, such as digestive discomfort, when consuming large amounts. It is advisable to use stevia in moderation.
What does stevia taste like?Stevia is known to be much sweeter than sugar, and its taste can vary depending on the form used and the specific product. Early versions of stevia extracts were noted for having a slight aftertaste, though modern formulations have significantly improved the taste profile.
How is stevia cultivated?Stevia is typically grown in subtropical and tropical climates. Sustainable cultivation practices are essential as the demand for stevia increases. These practices include using environmentally friendly agricultural methods and ensuring fair labor conditions for farmers.
Are there any environmental benefits to using stevia?Stevia has the potential to be more sustainable than traditional sugar crops. It requires less land and water to produce the same level of sweetness, which can reduce the environmental impact associated with sugar cultivation.
Can stevia be used in baking?Yes, stevia can be used in baking due to its high-temperature stability. However, because it is much sweeter than sugar, recipes may need to be adjusted to account for its intensity. Many commercially available stevia sweeteners come with specific usage guidelines for cooking and baking.
Are there different types of stevia products?Yes, stevia products come in various forms, including whole leaves, powdered extracts, and liquid concentrates. Some products are blended with other sweeteners or filler ingredients to better mimic the taste and texture of sugar.
How does stevia compare to artificial sweeteners?Stevia is a natural sweetener, which sets it apart from many artificial sweeteners. It is derived from a plant and does not undergo extensive chemical processing. Many consumers prefer stevia because it is perceived as a more natural and healthier option.
What research is being done on stevia?Ongoing research on stevia explores its potential health benefits beyond sweetness, such as its antioxidant properties and possible roles in managing certain health conditions. Innovations in biotechnology are also working to develop new stevia varieties with enhanced sweetness and other desirable traits.
Where can I buy stevia?Stevia products are widely available at VitaNet LLC. Stevia can be found in the baking aisle or the section dedicated to natural and alternative sweeteners. By understanding the benefits and uses of stevia, you can make an informed decision about incorporating this natural sweetener into your diet. With its rich history, proven health benefits, and versatility, stevia offers a compelling alternative to traditional sugar.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=6607) Antioxidants to Protect Your Body from Non Ionizing Radiation
Date:
July 20, 2022 03:12 PM
Non ionizing radiation is all around us. It comes from many different sources, including our cell phones, laptops, and other electronics. While it is not as dangerous as ionizing radiation, it can still do a lot of damage to our bodies. This damage can lead to health problems down the road. That's why it's important to protect yourself with antioxidants. We will discuss the three best antioxidants to protect your body from non ionizing radiation: vitamin C, NAC, and greens! What is non ionizing radiation and why should we be concerned about it? Non-ionizing radiation is a type of electromagnetic radiation that does not have enough energy to remove electrons from atoms or molecules. Despite its relatively low energy, non-ionizing radiation can be harmful to human health. This is because it can cause damage to DNA and other cellular structures. Prolonged exposure to non-ionizing radiation has been linked to an increased risk of cancer, as well as other health effects such as eye damage, skin burns, and interference with the body's natural electrical systems. While the risks associated with non-ionizing radiation are typically lower than those associated with ionizing radiation, it is still important to take steps to reduce exposure when possible. For example, individuals can limit their exposure to non-ionizing radiation by avoiding unnecessary x-rays, using cell phone hands-free devices, and keeping laptops at a distance from the body. By taking these simple precautions, we can help reduce our risk of developing health problems from non-ionizing radiation exposure. How to protect yourself from non ionizing radiation? Extended exposure to certain types of non-ionizing radiation can be harmful. For example, prolonged exposure to ultraviolet (UV) radiation can damage the DNA in cells and lead to skin cancer. Additionally, high levels of microwave radiation can cause Thermal injuries, such as burns. To protect yourself from harmful non-ionizing radiation, it is important to limit your exposure and take precautions to reduce your risk. For example, you can avoid prolonged sun exposure by wearing sunscreen and staying in the shade. You can also limit your exposure to microwave radiation by avoiding cell phone use and standing at least three feet away from microwave ovens while they are in use. By taking these simple steps, you can significantly reduce your risk of harm from non-ionizing radiation. The best antioxidants for protecting your body from non ionizing radiation? When it comes to protecting your body from non ionizing radiation, vitamins C and E are often thought of as the best antioxidants. However, studies have shown that glutathione (GSH) and N-acetyl cysteine (NAC) may be more effective. GSH is a potent antioxidant that helps to protect cells from damage, and NAC has been shown to increase GSH levels in the body. Both of these nutrients are found in leafy greens, making them an excellent addition to your diet. Green tea is also a good source of antioxidants, and regular consumption has been linked with a reduced risk of cancer. Whether you're exposed to non ionizing radiation on a daily basis or just want to boost your antioxidant intake, adding more greens to your diet is a good place to start. Other ways to reduce your exposure to non ionizing radiation? There are a number of ways to reduce your exposure to non ionizing radiation. One is to simply turn off routers and other devices when they are not in use. Another is to move cell phones out of the room where you sleep, or at least keep them on airplane mode during the night. If possible, it is also advisable to avoid using microwave ovens and instead opt for stove-top cooking. Additionally, there are a number of newer devices on the market that emit low levels of radiation, so it is worth doing some research to see if these might be a better option for you. Ultimately, the best way to reduce your exposure to radiation is to be aware of the sources around you and take steps to minimize your exposure. Non-ionizing radiation is a type of electromagnetic radiation that has been linked to several health risks, including cancer. While the risks associated with non-ionizing radiation are typically lower than those associated with ionizing radiation, it is still important to take steps to reduce exposure when possible. By taking simple precautions, such as avoiding unnecessary x-rays and using cell phone hands-free devices, we can help reduce our risk of developing health problems from non-ionizing radiation exposure. Additionally, there are a number of ways to reduce our exposure to this type of radiation, including turning off routers and other devices when they are not in use, moving cell phones out of the room where we sleep, and avoiding microwave ovens. By being aware of the sources of non-ionizing radiation around us and taking steps to minimize our exposure, we can help protect ourselves from its harmful effects.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=6416) Agave Nectar
Date:
April 08, 2010 04:31 PM
Comments by Craig Gerbore, CEO of Madhava: Reading through the attack articles and blogs that have surfaced recently one could think that using agave is bad for one's health. These claims are utterly false and misleading. They are extreme views drawn from extreme examples and applied way out of context. They are propagandizing and clearly designed to frighten, not educate. All of the fears and concerns associated with the overconsumption of sugars and calories in general have been unfairly cast on agave. What is a "healthy" sweetener? One that you use moderately and sensibly. Health concerns related to fructose and caloric sweeteners are all dependant on the overconsumption of them. All foods have calories and it is the overall consumption of calories that lead to obesity and related issues, not any one food source. Agave's caloric value is comparable to the other sweeteners in the category. Due to its greater sweetness though, less agave is used compared to the others, so agave actually can reduce caloric consumption per serving. This is due to a higher fructose content. The higher content does not mean higher consumption though, due to the smaller portion used. But, it is not the single serving that matters, it is the number of servings which lead to the overconsumption issues which may result in health concerns. As a reference point, 9-10 teaspoon servings of agave would be the approximate caloric equivalent of one 16 oz soft drink. With this perspective, is agave really being overconsumed as a choice of sweetener for home use? Every single health issue which the attackers have tried to associate with agave is really the result of a caloric overconsumption issue. There are no documented issues with normal, moderate consumption of agave or sweeteners in general as part of our everyday diet. For reasons unknown, some have attempted to isolate agave from the real world and real world conditions with the goal of inhibiting agave's use. They play on people's fears, reference false information and fail to address health issues in any meaningful way. The purpose of this article is to debunk the controversial misinformation surrounding agave. All information debunking the myths and misinformation is based on current science and facts. It is our goal to provide you with useful information so that you can make your personal nutritional choices in a well-informed, science-based manner. The Agave Controversy: Exposing the fraudulent article by Rami Nagel By Dr. Susan Kleiner, PhD, RD, FACN, CNS, FISSN And Craig Gerbore, CEO Madhava The controversy about agave syrup was manufactured by the publication of a single article on the internet, which has been reproduced and adapted for virtually every other article produced on the internet and other media venues. That article, written by Rami Nagel and published on Naturalnews.com, was highly biased and full of inaccuracies, half-truths and misinformation about agave. Since the Naturalnews.com article has been the sole source of nearly all other popular articles in public media, we want to set the record straight with science-based, reliable information to offer a more balanced resource to those interested in learning more about agave syrup. Who is the author, Rami Nagel? According to the description on the Naturalnews.com website, Rami Nagel is a "citizen journalist". This means that Mr. Nagel is self-employed, and not employed as an in-house journalist by the website. He wrote and published the article without any editorial or content oversight, and the editor of the website, Mike Adams, makes it clear that the article was not checked for incorrect or inaccurate information or facts. The introduction to the article, written by Mr. Adams, states that readers had written to comment that Mr. Nagel's resources were biased with conflicts of interest due to their financial interests in competing sweeteners, such as brown rice syrup. So even the website editor himself states that the article is not fact-checked, and it is biased and unbalanced. Who is Russ Bianchi? The sole resource interviewed for the article is Russ Bianchi, identified by the author as Managing Director and CEO of Adept Solutions, Inc. Mr. Bianchi has clear conflict of interest ties to the sweetener industry. We have documentation of the fact that Mr Bianchi had plans to market a product named Replace. It was to be touted as a low calorie alternative sweetener composed of natural and artificial ingredients! Mr Bianchi was prevented from marketing this sweetener as the result of a lawsuit against him by the owner of the formula. Mr Bianchi is quoted by Nagel extensively and exclusively. Many, if not all, of his statements are blatantly false or misrepresentations of fact. He is clearly propagandizing against agave nectar. Was anyone else interviewed for this article? Yes. Craig Gerbore, president and owner of Madhava Agave Syrup, was extensively interviewed by the author but no parts of that interview were included in the article. It is important to note that neither Mr Nagel or Mr Bianchi have not made themselves available for questions on their statements since the articles appearance. They remain out of sight and have entirely avoided the controversy their statements created. What is agave nectar? The opening line of this paragraph in the article by Mr. Nagel states: "The principal constituent of the agave is starch, such as what is found in corn or rice." This is absolutely false. There is no starch in agave. The source of carbohydrate in agave syrup is inulin, a polysaccharide made up primarily of strings of fructose units. Starch is a polysaccharide made up of strings of glucose molecules. They are significantly different, and this difference is why agave syrup is naturally sweet. The very basis of the argument presented by Mr. Nagel is false. The Process The agave plant is a succulent, similar to a cactus. The agave sweetener comes from both the Salmiana agave plant and the agave Tequilana (Blue Agave) which are both organically farmed in Mexico and certified organic by USDA approved certifiers. As the salmiana plant grows it produces a stalk called the "quiote" and when this is removed, a natural liquid called "aquamiel". The liquid is collected from the plant, while Blue agave pinons are harvested and shredded to remove the similar juice. Either can be naturally processed Thermally or by enzymes into agave nectar. The juice of the plant is not naturally sweet. The string of connected fructose units that makes up the major proportion of inulin does not have a sweet taste, but when the fructose units are separated (the process is called hydrolysis) by the addition of an enzyme, similar to digestion, or Thermally for most blue agave, the syrup becomes quite sweet. That is the entire processing chain for agave nectar. There are no additives, other ingredients or chemicals in Madhava agave nectar. It is absolutely pure and organic and GMO free. ? Mr. Nagel claims that agave syrup is a "refined corn fructose" similar to high fructose corn syrup. This is absolutely false. There is no relationship between agave syrup and high fructose corn syrup in any way, including the source of the product, or the manufacturing process. ? Mr. Nagel refers to a "confidential FDA letter" from Mr. Martin Stutsman, claiming that agave is fraudulently labeled. We contacted Mr. Stutsman at the United States Food and Drug Administration, and his response made it clear that there was never a "confidential FDA letter". He did publish a public letter referenced in an FDA document as "FDA letter from Martin Stutsman to Dr. Eric Wilhelmsen (Wilhelmsen Consulting), May 8, 2000", regarding evaporated cane juice, a topic wholly unrelated to agave syrup. ? He continued in his response to us that the paragraph in Mr. Nagel's article inaccurately reflected the substance of his comments in the document. This link will take you to the original document in which the letter was referenced (reference #2): //www.fda.gov/Food/GuidanceComplianceRegulatoryInformation/GuidanceDocuments/FoodLabelingNutrition/ucm181491.htm In fact, Mr. Nagel fabricated the entire story of the letter. Mr. Stutsman is a lawyer, not a doctor. The quotes were completely taken out of context from the document, and the quotes never referred to agave syrup at any time. Nagel goes on to further misrepresent Mr. Stutsman's intent in the published document by weaving in other inaccurate information that is thoroughly unrelated to the original document. Mr Bianchi's subsequent statements on labeling issues are false and without merit. Mr. Nagel is clearly caught red-handed. He has misrepresented the words of a government official, lied about the facts, and twisted the information to achieve his own agenda. This strategy is repeated throughout the article. ? Mr. Nagel continues his deceptive writing by referring to a quote by the late Dr. Varro Tyler in his book, The Honest Herbal. The first line of the paragraph is a direct quote from the book. Nothing else in that paragraph remotely resembles anything else found in Dr. Tyler's book. Mr. Nagel is trying to claim that agave syrup contains large quantities of saponins, and that they can be harmful to health. Here is the debunking of that paragraph: 1. Dr. Tyler does not include the variety of agave plant used for agave syrup. 2. The entire discussion is about the use of the sword-shaped leaves and the stem. Agave syrup is produced from the natural liquid in the plant. The saponins are isolated from the leaves of the plant. 3. There is no documented evidence to suggest agave syrup contains worrisome levels of saponins and the entire rest of the discussion about health dangers is fabricated and false. Sugars People are going to continue to consume sweet food and drink. There are only three categories of choice to sweeten food. Those are artificial sweeteners, stevia, or caloric sweeteners from natural sources, sugars. Most people will not choose artificial. Many will not choose stevia. That only leaves the category of sugars. In this group, agave is a good choice due to its organic quality, ease of use, neutral flavor, low glycemic index and the fact that less is used to equal the sweetness of the others in the category. The sweeteners in this category are composed of three primary sugars used to sweeten foods: glucose, fructose and sucrose. These sugars belong to a class of compounds known as carbohydrates. "Saccharide" is a term that denotes sugar, or substances derived from sugar. Monosaccharides are simple or single sugars; disaccharides are derived from two joined monosaccharides and when they are hydrolyzed, or separated, they yield two molecules of simple sugar. Strings of more than two sugar molecules are called polysaccharides. This category includes compounds such as starches, cellulose and inulin. Glucose and fructose are monosaccharides. Glucose and fructose are found abundantly in nature in fruits and plants. Sucrose is the disaccharide formed by the joining of glucose and fructose, also known as table sugar. When comparing their relative sweetness, glucose is the least sweet tasting, sucrose is next, and fructose is the sweetest of the three sugars, measured as 1.4 times sweeter than table sugar. Because it is so sweet, people typically use less fructose when sweetening foods compared to sucrose. ? In the article by Mr. Nagel he states , "fructose is not what is found in fruit. Commonly, fructose is compared with its opposite and truly naturally occurring sweetener, known as ‘levulose' (made by nature)..." Another fabrication. In fact, levulose is just another name for fructose. There are various nomenclatures used in the scientific naming of compounds. Fructose and levulose are exactly the same thing; the names are interchangeable. It is no different than if you called your father, "dad", and your sibling called your father, "father". He would still be the exact same person. Fructose and levulose are different names for the exact same thing: a sugar found in nature. Mr. Bianchi also is quoted to say that the body does not recognize the fructose in agave. This is another false piece of propaganda which demonstrates just how far he is reaching. If this were true, it would have no impact on us. He immediately contradicts himself with the claims of detrimental effects caused by the overconsumption of fructose. Using Sugars Sugars can be compared to each other in their ability to raise blood sugar levels by using the Glycemic Index. The scale is set from zero to 100, where low numbers do not have much impact on blood sugar levels, and high numbers raise blood sugar levels quickly. Fructose is very low on the scale. Because agave syrup is high in fructose, it has a rating of 32 or lower. Honey, which has a higher proportion of glucose to fructose, has a Glycemic Index of 58. Sucrose has a Glycemic Index of 68, and glucose, serving as the index standard, is 100. All sugars, whether fructose, glucose, sucrose or others, contribute 4 calories per gram to our total diet. 1 teaspoon of sugar = 4 grams = 16 calories In addition to calories, sugars sweeten our foods offering a desirable taste and adding enjoyment and pleasure to our dining. During cooking and baking, sugars allow for browning and the unique consistencies of syrups, candies, frostings and frozen desserts. The varieties of sugars, such as crystallized table sugar, brown sugar, raw sugar, molasses, honey and agave nectar, among others, contribute different properties and flavors to foods. When you add your own sugar to foods you are in control of how much sugar you use. Most people would never add as much sugar as do the food manufacturers. Moderate amounts of sugar can certainly be enjoyed as part of a healthy diet for an active individual. Natural sugars are easily metabolized and utilized by the body, offering a very efficient source of fuel for physical and mental activity. Of course, sugars should be used in moderation in the diet. This can control calories and help create a diet that is dense in nutrients. Impact of sugar on health and disease ? The remainder of Mr. Nagel's article works to link agave syrup with the increased incidence of obesity, diabetes, metabolic disease, and the general rise of morbidity and mortality in the population. This is an overconsumption issue involving far more than the occasional use of agave. Here are the facts: • Rats that are fed a high fructose diet become obese and will develop the chronic diseases associated with obesity: insulin resistance, diabetes and metabolic disease. • No one should eat a diet that reflects this type of experimental diet. • Too much sugar in the diet, whether from fructose, glucose or sucrose, can be unhealthy. Diets high in sugar promote tooth decay and periodontal disease; create an overabundance of calories and a deficit of nutrients. This scenario typically leads to weight gain and the development of chronic disease. • Active individuals can include a moderate amount of added sugar in their diet without negative health consequences. When calorie intake is balanced with physical activity, sugar serves as an efficient source of fuel for muscles, the brain and the central nervous system. • According to the World Health Organization (2003), individuals can healthfully include 10% of their daily calories from added sugars. This translates into 200 calories for a 2000 calorie diet, or 12½ teaspoons of added sugar daily. Clearly, one can safely add a couple of teaspoons of sweetener to a cup of tea or coffee, or have a little sweetened food without worrying about their risk of developing disease. • Agave syrup, which is sweeter than other sugars and low on the Glycemic Index scale, is a good choice to include as one of the added sugars in your diet because you will use less sugar (and therefore fewer calories) and minimally raise blood sugar levels. Just a teaspoon of agave: the healthy use of sweeteners in your diet We all want to live healthier and longer lives. Diet and nutrition plays a key role, impacting our health and our ability to perform physically and mentally now and into the future. Food offers us not only sustenance, but also pleasure and enjoyment. Food is present in so many parts of our lives: at celebrations, business events, family events, religious and spiritual occasions, sports outings, the focus of our family meals, intimate dinners, and sometimes just the excuse to socialize. Sweet foods make us feel good. Sugar allows for the elevation of serotonin in our brains, the "feel good" neurotransmitter that elevates mood, helps us focus, and in the evening, helps us relax and sleep. Sugar is a source of energy for our muscles, brain and central nervous system. Without sugar our bodies will not function at peak capacity. Too much sugar, however, is not good. In small amounts sugar energizes us, but in large doses, repeated throughout the day, day in and day out, sugar puts stress on the body. The extra calories can lead to weight gain and obesity, which in time can lead to chronic disease. In the short term, high sugar intakes can lead to a nutritionally deficient diet and a sense of being on an emotional roller coaster. So be selective about your use of sugars and use them in moderation in your diet. Just like all foods, a variety will enhance the nutritional content of your diet and the flavor and tastes that you can enjoy. Since sugars come in different forms and have different flavors, they can be used most effectively in specific foods and beverages. For instance, agave syrup is liquid and less viscous than honey, making it easy to mix into cold liquids like iced tea and coffee, and is great to add to cold unsweetened cereals for a little sweet taste. Agave's mild flavor allows chefs and bakers to sweeten foods lightly, without overpowering the taste of the dish. Pay attention to how much sugar is added to your diet every day. Read labels so that you know when sugar is added to manufactured foods. Keep the consumption of added sugars in your diet to no more than 10% of your total daily calorie intake so that you have plenty of room for nutrient dense foods like fruits, vegetables, grains, dairy, protein-rich foods, nuts, seeds and healthy oils. Remember that nutrition is a science based on facts. We are making great advances in our understanding of the science of foods and nutrition. Beware of people with hidden agendas using fear tactics to influence your choices. Don't take their opinion at face value. What are their credentials? What conflicts of interest do they have? If they do not disclose conflicts, then assume that they are manipulating the truth. Most of all enjoy food. Think about what you need to eat to promote whole health. Don't overindulge, but don't deprive yourself of the bounty of wonderful tastes, either. Use celebrations as occasions to enjoy your favorite foods and try new ones. A teaspoon or two of sugar easily fits into the diet of an active, healthy person. Agave syrup offers an organic low-glycemic choice for those looking for that option. Resources for this article: Charley H. Food Science, 2nd Edition. John Wiley & Sons, New York, NY, 1982. Figlewicz DP et al. Effect of moderate intake of sweeteners on metabolic health in the rat. Physiology and Behavior 98:618-624, 2009 Johnson RK et al. Dietary sugars intake and cardiovascular health: A scientific statement from the American Heart Association. Circulation: Journal of the American Heart Association, 2009 Tyler VE. The Honest Herbal, Third Edition. Pharmaceutical Products Press, New York, NY, 1993.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=2152) Myth: Agave Nectar is adulterated or mixed with HFCS.
Date:
April 08, 2010 04:08 PM
Truth: There are two methods of making the Agave Nectar from the juice of the plant. One uses a non-GMO enzyme and the second is via Thermal hydrolysis. Both process achieve the same goal which is to separate the naturally occurring Fructans which are complex sugar molecules into their simple sugar components fructose and glucose. Unlike the process of High Fructose Corn Syrup (HFCS), which creates fructose out of the glucose from the starch found in milled Corn, Agave Nectar simply separates Fructans or Inulin, a complex naturally occurring sugar into Fructose and Glucose. Our producers do not use any sort of chemicals in the process and no foreign material is being added such as HFCS. Filtration and evaporation of excess moisture are the rest of the process. The evaporation is done in a vacuum evaporator. No research has pointed that Blue Agave contains Anodin and Dinordin, the steroid derivatives with contraceptive effects that could lead to a miscarriage. This is clearly a cruel scare tactic. The truth is that there are many types of saponins and they are in a lot of foods we eat. Most beans and legumes, soya beans, onions, paprika, alfalfa - these all contain various saponins. Saponins are phytosterol compounds that occur naturally in some plants. Saponins have antimicrobial and antifungal properties, along with anti-inflammatory and immune-stimulating properties. From the prehispanic times, the only sweet treat available to Indians in Mexico was the cooked leaves of the agave plant. They are still in markets all over Mexico. If there would be any kind of dangerous substance, this would be the absolute extreme case of exposure to it; not a single case of any problem has ever been reported, this goes back over 700 years. Agave Nectar in its present form has been sold for over 12 years all over the world, including western Europe, Japan and the U.S.. The product has a proven record of safety and is deemed safe by the FDA and all regulatory bodies all over the world and there has never been a report of agave nectar linked to a miscarriage. Madhava's Agave Nectar does not contain corn syrup, corn products, or any adulteration of any sort. Guaranteed. Our Agave Nectar is 100% pure from the agave plant with no additives whatsoever. We package our agave nectar at our facility in the foothills of the Colorado Rockies. Madhava's Quality Control representatives routinely visit and inspect all our suppliers’ facilities in Mexico. The suppliers are Organically Certified and 3rd party audited or currently in the process. In addition our facility in Colorado is USDA Organic Certified and we are routinely audited.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=2142) Myth: Agave Nectar can produce miscarriages.
Date:
April 08, 2010 04:07 PM
Truth: There are two methods of making the Agave Nectar from the juice of the plant. One uses a non-GMO enzyme and the second is via Thermal hydrolysis. Both process achieve the same goal which is to separate the naturally occurring Fructans which are complex sugar molecules into their simple sugar components fructose and glucose. Unlike the process of High Fructose Corn Syrup (HFCS), which creates fructose out of the glucose from the starch found in milled Corn, Agave Nectar simply separates Fructans or Inulin, a complex naturally occurring sugar into Fructose and Glucose. Our producers do not use any sort of chemicals in the process and no foreign material is being added such as HFCS. Filtration and evaporation of excess moisture are the rest of the process. The evaporation is done in a vacuum evaporator.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=2141) Myth: Agave Nectar is produced the same way as High Fructose Corn Syrup (HFCS).
Date:
April 08, 2010 04:06 PM
Truth: There are two methods of making the Agave Nectar from the juice of the plant. One uses a non-GMO enzyme and the second is via Thermal hydrolysis. Both process achieve the same goal which is to separate the naturally occurring Fructans which are complex sugar molecules into their simple sugar components fructose and glucose. Unlike the process of High Fructose Corn Syrup (HFCS), which creates fructose out of the glucose from the starch found in milled Corn, Agave Nectar simply separates Fructans or Inulin, a complex naturally occurring sugar into Fructose and Glucose. Our producers do not use any sort of chemicals in the process and no foreign material is being added such as HFCS. Filtration and evaporation of excess moisture are the rest of the process. The evaporation is done in a vacuum evaporator.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=2140) Avage Nectar Facts
Date:
April 08, 2010 04:02 PM
First of all let me preface by saying thank you very much for contacting Madhava Honey with your concern. Madhava has been in business for over 36 years and one of our four fundamental core values is and always will be to provide the Highest Quality product that exceeds the industry standard. Our other three core values are providing a product with the highest respect to the environment and health of the consumer, supporting community development via living wages and sustainable development of local economies, and finally providing a fair guaranteed price for our suppliers. Thirty six years ago Madhava was founded on "sustainable" practices and we take negative misleading attacks on our products very seriously. Madhava will try to respond to all the issues in question along with providing a little bit of background information on the source of the attacks. Finally at Madhava we believe in full transparency and please do not hesitate to contact us directly if you feel any questions or concerns have not been addressed. Thank you very much. A. What constitutes Madhava's Agave Nectar? There are 3 main components of our Agave Nectar. It is naturally composed primarily of the simple sugars fructose, glucose (dextrose), and water. Madhava’s Agave is Certified Organic and is Genetically Modified Organism (GMO) Free. B. How is Madhava's Agave Nectar produced? The Agave plant is truly a remarkable plant! It grows in the harshest environments with little water and no upkeep is needed. It is naturally found in Western Mexico making it a non-evasive plant to the area regarding its growth and harvest. It requires no pesticides or fertilizers and is actually a cornerstone to its ecosystem. The Agave plant is truly a sustainably grown/harvested crop. The Agave plant is grown for 6-8 years, then before turning to seed, it is then harvested by hand. Jimadores or Agave harvesters go to the selected fields and remove the "Pina" or heart of the Agave plant, by cutting off the long spiny "leaves" and unearthing it from the soil. It is all done by hand thus reducing the carbon footprint during harvesting. The Pinas are then loaded to a truck which takes them back to the harvesting facility. There are two methods of making the Agave Nectar from the juice of the plant. One uses a natural non-GMO enzyme and the second uses Thermal hydrolysis. Both processes achieve the same goal; which is to separate the naturally occurring Fructans, which are complex sugar molecules into their simple sugar components fructose and glucose. The actual process of hydrolysis of agave, either Thermal or enzymatic, is unlike the process of High Fructose Corn Syrup (HFCS), which creates fructose out of the glucose made from the milled starch of corn. Agave Nectar simply separates Fructans or Inulin, a complex naturally occurring sugar, into Fructose and Glucose. C. Moderation vs. Overconsumption It is certainly true that overconsumption of any one or a combination of sugars can have detrimental effects, but this is not in a vacuum, it involves lifestyles, other food choices and other conditions. Overconsumption of any food or beverage will have ramifications. Sweeteners are ingredients which are added to foods in relatively small quantity to make them more palatable. In others, sugars can make up a large portion of the caloric value. These foods are easy to identify and avoid as necessary. People do not consume sweeteners as a solitary food in mass quantity. They are just part of the choices people make and consumption can be controlled, each of us chooses what we eat and how much. There are no health issues with moderate consumption of sweeteners; every negative circulating is relative to the overall consumption of one's diet.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=2136) HAWAIIAN NONI (Morinda citrifolia)
Date:
July 11, 2005 08:50 PM
INTRODUCTION In a time when we are more concerned than ever with issues of health, a tried and true tropical herb called noni needs t o be added t o our list of the best natural remedies. It susage over hundreds of years supports it s description as a veritable panacea of therapeutic actions. At this writing, noni continues to accrue impressive medicinal credentials, and its emergence as an effective nat ural healing agent is a timely one. Amidst rising cancer rates, the high incidence of degenerative diseases like diabetes, and the evolution of ant ibiotic resist ant bacteria and new viral strains, herbs like noni are sought after for their natural pharmaceutical properties. Unquest ionably, all of us want to know how to:
Genus Rubiaceae Common Names Indian Mulberry (India), Noni (Hawaii), Nono (Tahiti and Raratonga), Polynesian Bush Fruit, Painkiller Tree (Caribbean islands), Lada (Guam), Mengkudo (Malaysia), Nhau (Southeast Asia), Grand Morinda (Vietnam), Cheesefruit (Australia), Kura (Fiji), Bumbo (Africa) Note: This is only a small sampling of vernacular names for Morinda citrifolia. Almost every island nation of the South Pacific and Caribbean has a term for this particular plant . This booklet will refer to the herb mainly as “ noni” or M. citrifolia, and is referring primarily to Hawaiin noni. Parts Used The parts of the noni plant most used for their medicinal and nutritional purposes are the fruit, seeds, bark, leaves, and flowers. Virtually every part of the noni plant is utilized for its individual medicinal properties; however, it is the fruit portion that is regarded as its most valuable. The seeds have a purgative action, the leaves are used to treat external inflammations and relieve pain, the bark has strong astringent properties and can treat malaria, the root extracts lower blood pressure, the flower essences relieve eye inflammations and the f ruit has a number of medicinal actions. Physical Description Morinda citrifolia is technically an evergreen shrub or bush, which can grow to heights of fifteen to twenty feet . It has rigid, coarse branches which bear dark, oval, glossy leaves. Small white fragrant flowers bloom out of cluster-like pods which bear creamy-white colored fruit. The fruit is fleshy and gel-like when ripened, resembling a small breadf ruit . The flesh of the fruit is characterist ically bitter, and when completely ripe produces a rancid and very dist inctive odor. Noni has buoyant seeds that can float formont hs in ocean bodies. The wood of the inflammatory, astringent, emollient, emmenagogue, laxative, sedative, hypotensive (lowers blood pressure) , blood purif ier, and tonic. Chemical Constituents Noni has various chemical constituents. First, it has an impressive array of terpene compounds, three of which—L. Asperuloside, aucubin, and glucose— have been identified by their actyl derivatives. Both caproic and caprylic acids have been isolated.1 Second, bushfruits, a category of which noni fruit is a member, are also considered a good source of vit - amin C.2 Third, Hawaiin noni has been linked to the synthesis of xeronine in the body which has significant and widespread health implications. Last , the alkaloid cont ent of the noni fruit is thought to be responsible for its therapeutic actions. Alkaloids exhibit a wide range of pharmacological and biological act ivitiesin the human body. They are nitrogencontaining organic compounds which can react with acids to form salts and which are the basis of many medicines. The following is an in-depth chemical analysis of each plant part and it s chemical constituents.
FLOWER
FRUIT
discovered an alkaloid in the Hawaiin noni fruit which he calls proxeronine and which he believes has appreciable physiological actions by acting as a precursor to xeronine, a very crucial compound (see later sections) . In addition, a compound found in the fruit called damnacanthol is believed to help inhibit cert ain viruses and cellular mutations involved in cancer. ROOT AND ROOT BARK
Pharmacology Recent surveys have suggested that noni fruit exerts antibiotic action. In fact, a variety of compounds which have antibacterial properties (such as aucubin) have been identified in the fruit.5 The 6-Dglucopyranose pentaacet ate of the fruit extract is not considered bacteriostatic.6 Constituents found in the fruit portion have exhibited ant imicrobial action against Escherichia coli, Salmonella typhi (and other types) , Shigella paradysenteriae, and Staphylococcus aureaus. Compounds found in the root have the ability to reduce swollen mucous membrane and lower blood pressure in animal studies. Proxeronine is an alkaloid constituent found in Hawaiin noni fruit which may prompt the production of xeronine in the body. It is considered a xeronine precursor and was discovered in noni fruit by Dr. Ralph M. Heinicke. He has theorized that this proenzyme can be effective in initiating a series of beneficial cellular reactions through its involvement with the integrity of specific proteins. He points out that tissues contain cells which possess certain recept or sites for xeronine. Because the reactions that can occur are so varied, many different therapeutic actions can result when xeronine production escalates, explaining why Hawaiin noni is good for so many seemingly unrelated disorders. Damnacanthol is another compound contained in the fruit of the Hawaiin noni plant which has shown the ability to block or inhibit the cellular function of RAS cells, considered pre-cancerous cells. Body Systems Targeted The following body systems have all been effec-freeze-dried capsules, dehydrated powder or fruit, and oil. Noni plant constituents are sometimes offered in combination with other herbs. Some products contain a percent age of the fruit, bark, root and seeds for their individual therapeutic properties. Satety Extracts of M. citrifolia are considered safe if used as directed; however, pregnant or nursing mothers should consult their physicians before taking any supplement . High doses of root extracts may cause constipation. Taking noni supplements with coffee, alcohol or nicotine is not recommended. Suggested Uses Ideally, noni extracts should be taken on an empty stomach prior to meals. The process of digesting food can interfere with the medicinal value of the alkaloid compounds found in Hawaiin noni, especially in its fruit . Apparently, stomach acids and enzymes destroy the specific enzyme which frees up the xeronine compound. Take noni supplements without food, coffee, nicotine or alcohol. Using supplements that have been made from the semi-ripe or light - green fruit is also considered preferable to the ripe, whit ish fruit . NONI: ITS USE AND HISTORY Noni is a tropical wandering plant indigenous to areas of Australia, Malaysia and Polynesia. It is considered native to Southeast Asia although it grows from India to the eastern region of Polynesia. Morinda citrifolia has a long history of medicinal use throughout these areas. It is thought to be the “most widely and commonly used medicinal plant prior to the European era.” 7 Centuries ago, the bushfruit was introduced to native Hawaiians, who subsequently called it “noni” and considered its fruit and root as prized medicinal agents. Among all Polynesian botanical agents of the 19th and 20th centuries, Hawaiin noni has the widest array of medical applications. Samoan and Hawaiian medical practitioners used noni for bowel disorders (especially infant diarrhea, constipation, or intestinal parasites) , indigestion, skin inflammation, infection, mouth sores, fever, contusions and sprains. Hawaiians commonly prepared noni tonics designed to treat diabetes, stings, burns and fish poisoning.8 The herb’s remarkable ability to purge the intestinal tract and promote colon health was well known among older Hawaiian and Tahitian natives and folk healers. Interestingly, field observations regarding its repu-remarkable healing agent . Wonder Herb of Island Folk Healers Common to t he thickets and forests of Malaysia and Polynesia, and the low hilly regions of the Philippine islands, noni has been cultivated throughout communities in the South Pacific for hundreds of years. Its Hawaiian use is thought to originate from inter-island canoe travel and settlement dating to before Christ . Its hardy seeds have the ability to float which has also contributed to its distribution among various seacoasts in the South Pacific region. Historical investigation has established the fact that some of Hawaii’s earliest settlers probably came viaTahiti. For this reason, Tahitian herbal practices have specific bearing on the herbal therapeutics of islands to the nort h. The very obvious similarities between the Hawaiian vernacular for herbal plants like noni and Tahitian names strongly suggests the theory of Polynesian migrations to Hawaii. Cultures native to these regions favored using Morinda citrifolia for treating major diseases and ut ilized it as a source of nourishment in times of famine.9 Noni fruit has been recognized for centuries as an excellent source of nutrition. The peoples of Fiji, Samoa and Rarat onga use the fruit in both its raw and cooked forms.10 Traditionally, the fruit was propicked before it was fully ripe and placed in the sunlight . After being allowed to ripen, it was typically mashed and its juice extracted through a cloth. Noni leaves provided a veget able dish and their resiliency made them desirable as a fish wrap for cooking. Noni’s Medical Reputation Elaborate traditionalrituals and praying rites usually accompanied the administration of noni. Int erestingly, cultures indigenous to the Polynesian islands had a significant understanding of their flora. For example, native Hawaiians maint ained a folkmedicine taxonomy t hat was considered second to none.11 Noni was not only used for medicinal purposes but for its food value, for clot hing and for cloth dyes as well. Research indicates that noni was among the few herbal remedies that islanders considered “ tried and true.” In Hawaii, trained herbal practitioners reserved the right to prescribe plant therapies.12 Records indicate that Hawaiian medical practices were based on extensive and very meticulous descriptions of symptoms and their prescribed herbal treatments. Dosages were controlled and the collection and administration of plant extracts was carefully monitored.13 In addition to Morinda, it was not uncommon for these herbal doctors to also recommend using In regard to its application for common ailments, Hawaiians and other island communities traditionally prescribed noni to purge the bowel, reduce fever, cure respiratory infections such as asthma, ease skin inflammations, and heal bruises and sprains. In other words, noni was widely used and highly regarded as a botanical medicine. A Timely Reemer gence Today, the natural pharmaceutical actions of the chemical constituents contained in noni are scientif-ically emerging as valuable bot anical medicines. Tahitian “nono” intrigued medical practitioners decades ago; however, due to the eventual emergence of synthetic drugs, interest in this island botanical diminished until recent years. Ethnobot anists are once again rediscovering why Hawaiian people havet reasured and cultivat ed Morinda citrifolia for generations. Noni is now finding its way into western therapeutics and is referred to as “ the queen” of the genus Rubiaceae. Its ability to reduce joint inflammation and target the immune system have made it the focus of the modern scientific inquiry. Dr. Ralph Heinicke has conducted some fascinating studies on the chemical constituents of the Hawaiin noni fruit. His research centers on the proxeronine content of the fruit juice and how it profoundly influences human physiology. In addition, scientific studies investigating noni as an anti-cancer agent have been encouraging. It s conspicuous attributes and varied uses have elevat edits status to one of the best of the healing herbs. Today Morinda citrifolia is available in liquid, juice, freezedried capsules, or oil forms, and is considered one of nature’s most precious botanicals. TRADITIONAL USES OF NONI Throughout tropical regions, virtually every part of Morinda citrifolia was used to treat disease or injury. Its curative properties were well known and commonly employed. PatoaTama Benioni, a member of the Maoritribe from the Cook Islands and a lecturer on island plants explains: Traditionally Polynesians use noni for basically everything in the treatment of illness. Noni is a part of our lives. Any Polynesian boy will tell you he’s had exper ience with it . We use juice from its roots, its flowers, and its fruit... my grandmother taught me to use noni from the roots and the leaves to make medicine for external as well as internal use, and for all kinds of ailments, such as coughs, boils, diseases of the skin, and cuts.15 decoctions to stimulate delayed menst ruation.
XERONINE: THE SECRET OF NONI? One informed professional on the subject of noni is Dr. Ralph Heinicke, a biochemist who has researched the active compounds of noni fruit for a number of years. He discovered that the Hawaiin noni fruit contains an alkaloid precursor to a very vital compound called xeronine. Wit hout xeronine, life would cease. In Dr. Heinicke’s view, noni fruit provides a safe and effective way to increase xeronine levels, which exert a crucial influence on cell health and protction. His research suggests that the juice from the M. citrifolia fruit contains what could technically be considered a precursor of xeronine—proxeronine. This compound initiates the release of xeronine in the intestinal tract after it comes in contact with a specific enzyme which is also contained in the fruit . Because proteins and enzymes have so many varied roles within cell processes, the normalization of these proteins with noni supplemenation could initiate avery wide variety of body responses and treat many disease condit ions. Proteins are the most important catalysts found in the body. The beauty of obtaining a precursor to xeronine from the noni fruit is that the body naturally decides how much of this precursor to convert to xeronine. Disease, stress, anger, trauma and injury can lower xeronine levels in the body, thus creat ing a xeronine deficit . Supplementing the body with noni fruit is considered an excellent way to safely and naturally raise xeronine levels. It is the research and theories of Dr. Heinicke which have made the juice of the Hawaiin noni fruit a viable medicinal substance. He writes: Xeronine is analkaloid, a substance the body produces in order to activate enzymes so they can function properly. It also energizes and regulates the body. This par-ticular alkaloid has never been found because the body makes it, immediately uses it, and then breaks it down. At no time is there an appreciable, isolable amount in the blood. But xeronine is so basic to the functioning of proteins, we would die without it . Its absence can cause many kinds of illness.17 Because so many diseases result from an enzyme malfunction, Dr. Heinicke believes that using the noni fruit can result in an impressive array of curative applications. Interestingly, he believes that we manufacture proxeronine while we are sleeping. He proposes t hat if we could constantly supply our bodies wit h proxeronine from other sources, our need to sleep would diminish.18 NONI PROCESSING How an herb is processed is crucial to how beneficial it is: this is especially true of noni, with its unique enzymes and alkaloids. Morinda citrifolia should be picked when the fruit is turning from its dark green immature color to its lighter green color, and certainly before it ripens to its white, almost translucent color. Once picked, noni, like aloe, will denature extremely quickly due to its very active enzymes. After harvesting, it should swiftly be flash frozen. This is similar to what is done to fish caught at sea to keep them f esh. This stops it from losing its potency while not damaging any of its constituents. To process noni, freeze-drying is recommended. This removes only the water without damaging any of this miracle plant’s vital enzymes and other phytonutrients like xeronine and proxeronine. This pure high-quality noni fruit juice powder is then encapsu-has a very harsh taste and an extremely foul smell, similar to the fruit it self . Other methods of processing include Thermal processing, dehydrat ion and air drying. Thermal processing is generally found in liquids, while the dehydrat ed noni is then milled and encapsulated. Unfortunately both methods utilize high heat (110+°F) , which can deactivate many of the vital compounds that make noni so import ant . Air-drying is effect ive without using damaging heat but has serious quality control problems for commercial production. MODERN APPLICATIONS OF NONI Overview Noni possesses a wide variety of medicinal properties which originat e from its differing plant component s. The fruit and leaves of the shrub exert antibacterial activities. Its roots promote the expulsion of mucus and the shrinkage of swollen membranes making it an ideal therapeutic for nasal congest ion, lung infect ions, and hemorrhoids. Noni root compounds have also shown natural sedative properties as well as the ability to lower blood pressure. Leaf extracts are able to inhibit excessive blood flow or to inhibit the formation of blood clots. Noni is particularly useful for its ability to treat painful joint conditions and to resolve skin inflammations. Many people drink noni fruit extracts in juice form for hypert ension, painful menstruation, arthritis, gastric ulcers, diabetes, and depression. Recent studies suggest that its anticancer activit y should also be considered. Concerning the therapeutic potential of the Hawaiin noni fruit, Dr. Heinicke writes: I have seen the compound found in noni work wonders. When I was still investigating its possibilities, I had a friend who was a medical research scientist administer the proxeronine to a woman who had been comatose for three months. Two hour safter receiving the compound, she sat up in bed and asked where she was. . . . Noni is probably the best source of proxeronine that we have today.19 Studies and surveys combined support the ability of noni to act as an immunost imulant, inhibit the growth of certain tumors, enhance and normalize cellular function and boost tissue regeneration. It is considered a powerful blood purifier and contributor to overall homeostasis. xeronine, which appears to be able to regulate the shape and integrity of cert in proteins that individually contribute to specific cellular activities. Interestingly, this effect seems to occur after ingestion, inferring that the most active compound of noni may not be present in uneaten forms of the fruit or other plant parts. Some practitioners believe that xeronine is best obtained from a noni fruit juice precursor compound. The enzymatic reactions that occur with taking the juice on an empty stomach are what Dr. Heinicke believes set cellular repair intomotion. Cancer A study conducted in 1994 cited the anticancer activity of Morinda citrifolia against lung cancer. A team of scientists from the University of Hawaii used live laboratory mice to test the medicinal properties of the fruit against Lewis lung carcinomas which were artificially transferred to lung tissue. The mice that were left untreated died in nine to twelve days. However, giving noni juice in consistent daily doses significantly prolonged their life span. Almost half of these mice lived for more than fifty days.20 Research conclusions state that the chemical constituents of the juice acted indirectly by enhancing the ability of the immune system to deal with the invading malig-nancy by boosting macrophage or lymphocyte activit y. Furt her evaluation theorizes that the unique chemical constituents of Morinda citrifolia initiate enhanced T-cell activity, a reaction that may explain noni’s ability to treat a variety of infectious diseases. 21 In Japan, similar studies on tropical plant extracts found that damnacanthol, a compound found in Morinda citrifolia, is able to inhibit the function of KRAS- NRK cells, which are considered precursors to certain types of malignancies.22 The experiment involved adding noni plant extract to RAS cells and incubating them for a number of days. Observation disclosed that noni was able to significantly inhibit RAS cellular function. Among 500 plant extracts, Morinda citrifolia was determined to contain the most effective compounds against RAS cells. Its damnacanthol content was clinically described in 1993 as “a new inhibit or of RAS function.” 2 3 The xeronine fact or is also involved in that xeronine helps to normalize the way malignant cells behave. While they are still technically cancer cells, they no longer function as cells with unchecked growth. In time, the body’s immune system may be able to eradicate these cells. Arthritis with arthritic disease. One link to arthritic pain may be the inability to properly or completely digest proteins which can then form crystal-like deposits in the joints. The ability of noni fruit to enhance protein digestion through enhanced enzymatic function may help to eliminate this particular phenomenon. In addition, the alkaloid compounds and plant met abolites of noni may be linked to its apparent anti-inflammatory action. Plant sterols can assist in inhibiting the inflammatory response which causes swelling and pain. In addition, the antioxidant effect of noni may help to decrease free radical damage in joint cells, which can exacerbate discomfort and degeneration. Immune System The alkaloid and other chemical compounds found in noni have proven themselves to effectively control or kill over six types of infectious bacterial strains including: Escherichia coli, salmonellatyphi (and other types) , shigella paradysenteriae, and staphylo - coccus aureaus.25 In addition, damnacanthol, was able to inhibitt he early antigen stage of the Epstein- Barr virus. The bioactive components of the whole plant, combined or in separate portions, have demonst rat - ed the ability to inhibit several different strains of bacteria. Anecdotal reports support this action in that noni seems particularly effective in shortening the duration of certain types of infection. This may explain why noni is commonly used to treat colds and flu. The chemical constituents found in noni and the possibility that they stimulate xeronine production— as well as initiate alkaloid therapy—may explain noni’s reputation for having immuno-stimulatory properties. Alkaloids have been able to boost phagocytosis which is the process in which certain white blood cells called macrophages attack and literally digest infectious organisms. Interestingly, the ant it umoraction of noni has been ascribed to an immune system response which involves stimulating T-cells. tropical regions during World War II learned of the fruit’s ability to boost endurance and stamina. Native cultures in Samoa, Tahiti, Raratonga and Australia used the fruit in cooked and raw forms. M. citrifolia is considered a tonic and is especially recommended for debilitated conditions. Antioxidant The process of aging bombards the body with free radicals which can cause all kinds of degenerative diseases. The xeronine theory promoted by Dr. Heinicke submit s t hat as our bodies age, we lose our ability to synthesize xeronine. To make matters worse, the presence of many environment altoxins actually blocks the production of xeronine as well. He believes that the proxeronine content of Hawaiin noni fruit juice can help to block these actions, thereby working as an antiaging compound.26 The phytonutrients found in noni assist in promot - ing cell nourishment and prot ect ion from free radicals created by exposure to pollution and other potentially damaging agents. In addition, Morinda citrifolia contains selenium, which is considered one of the best antioxidant compounds available. Diabetes While scientific studies are lacking in this particular application of noni, Hawaiians used various parts of the plant and its fruit to treat blood sugar disorders. Anecdotal surveys have found t hat noni is current ly recommended for anyone with diabetes. Pain Killer A 1990 study found that extracts derived from the Morinda citrifolia root have the ability to kill pain in animal experiments.27 Interest ingly, it was during this study that the natural sedative action of the root was also noted. This study involved a French team of scientists who noted a significant central analgesic activity in laboratory mice.28 Dr. Heinicke has stated, “Xeronine also acts as a pain reliever. A man wit h very advanced int est inal cancer was given three months to live. He began taking the proxeronine and lived for a whole year, pain-free.” 29 Skin Healing Agent One of the most prevalent hist rical uses of noni was in poultice form for cuts, wounds, abrasions, burns and bruises. Using its fruit extract for very serious burns has resulted in some extraordinary healing. Because skin is comprised of protein, it immediately responds to the presence of xeronine. burn site throught he direct application of a noni poultice is considered quite effective by Dr. Heinicke and his colleagues, who have studied enzymatic therapy. Concerning burns, he has written: I believe that each tissue has cells which contain proteins which have receptor sites for the absorption of xeronine. Certain of these proteins are the inert for ms of enzymes which require absorbed xeronine to become active. This xeronine, by converting the body’s procol- langenase system into a specific protease, quickly and safely removes the dead tissue from burns.30 Drug Addiction The xeronine link to treat ing drug addiction is based on the notion that flooding t he brain with extra xeronine can reverse the neurochemical basis for addiction. This natural alkaloid is thought to normalize brain receptors which subsequent ly results in the cessation of physiological dependence on a certain chemical like nicotine.3 1 The potential of Hawaiin noni as a natural stimulat or for t he production of xeronine may have profound implications in treating various types of addictions. Complementary Agents of Noni
PrimaryApplications of Noni
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=570) INTRODUCTION
Date:
June 23, 2005 10:49 AM
INTRODUCTION How many of us give the red hot chile pepper the respect it d e s e rves? Mo re often than not, most of us re g a rd red pepper or Capsicum as nothing more than the spice added to give Cajun and Mexican cuisine its piquant kick. Technically speaking, caye n n e pepper is the strongest red pepper variety of the Capsicum family, with paprika being the mildest. Throughout this discussion, the terms capsicum and cayenne pepper will be used interchangeably. For our purposes, it’s important to know that herbalists have designated both of these terms for the same botanical agent. Health practitioners have known for centuries that Capsicum is much more than a culinary spice. Because they considered it a “ h o t” plant, Chinese physicians utilized it for physiologic conditions that needed stimulation. Capsicum or Cayenne Pepper is one of the few herbs that can be measured by its BTU or Thermal units. In other words, it is a hot and stimulating pepper plant that can generate heat. Recently, new and very valuable medicinal uses for Capsicum h a ve emerged through scientific inquiry. The red chile pepper is experiencing a rediscovery among health care practitioners, who have only just begun to uncover its marvelous therapeutic actions. It has been referred to as the purest and most effective natural stimulating botanical in the herbal medicine chest. The most recent clinical findings re g a rding Capsicum will be explored in our discussion with special emphasis on Capsicum’s ability to heal ulcers, protect stomach mucosa and alleviate peripheral pain. Unquestionably, Capsicum exe rts potent physiological and pharmacological effects without the side-effects commonly associated with powerful medicinal drugs. Ironically, in the past, Capsicum’s classification as a hot and spicy substance has done it a disservice. Because Capsicum is fiery and pungent, it is frequently regarded as dangerous and unpalatable. To the contrary, if it is used properly, Capsicum can be perfectly safe and impressively effective against a wide variety of physical disorders ranging from indigestion to ulcers to migraines. It s ability to lower blood cholesterol, boost circulation and even step up metabolism are worth serious consideration. In addition, its value for mental afflictions like depression must also be assessed. In a time when the notion of treating disease after the fact is more the rule than the exception, Capsicum offers protection from infectious invaders by boosting the effectiveness of the immune system. Today, amidst the over prescription of antibiotic drugs, Capsicum emerges as a potent immune fortifier, antioxidant and infection fighter. A powerful compound called capsaicin is what gives Capsicum its bite and is also responsible for most of its beneficial effects on human physiology.1 The hotter the pepper, the higher its content of capsaicin.2 The re m a rkable pro p e rties of capsaicin will be discussed and documented clinical evidence supporting the use of capsaicin will be delineated. It is important to realize in evaluating this herb that while it can be used alone, Capsicum is frequently added to herbal combinations to potentiate their overall action. This fact alone attests to the powerful but safe stimulant action of Capsicum. Stimulation is thought to be one of the keys to swift and complete healing. Capsicum is ascending in prestige and is regarded as a modernday botanical which is accruing new and impressive credentials. The fruit of this particular pepper plant is a valuable herbal treasure. It is vital to our health that we inform ourselves about its many medicinal uses. CAPSICUM (CAPSICUM ANNUUM) Common Names: Cayenne Pepper, Red Pepper, African Bird Pepper, Bird Pepper, Spanish Pepper, American Red Pepper Plant Parts: Fruit Active Compounds: alkaloids (capsaicin), fatty acids, flavonoids, volatile oil, carotene pigment Nutritional Components: Capsicum is rich in Vitamin C (ascorbic acid) and Zinc, two nutrients which are vital for a strong and healthy immune system. It is also high in vitamins, A, C, rutin (a bioflavonoid), beta carotene, iron, calcium and potassium. Capsicum also contains magnesium, phosphorus, sulphur, B-complex vitamins, sodium and selenium. The nutritional breakdown of Capsicum is as follows: Pharmacology : Capsaicin (active component) contains over 100 distinct volatile compounds.3 It also contains capsacutin, capsaicin, capsantine, and capsico. Character: analgesic, antibacterial, antioxidant, antipyretic, antiseptic, antispasmodic, aromatic, astringent, blood thinner, cardiovascular tonic, carminative, circulatory stimulant, diaphoretic, hemostatic, herbal accentuator, nerve stimulant, stomachic and tonic (general) Body Systems Targeted : cardiovascular, circulatory, gastrointestinal, nervous, integumentary, skeletal, metabolic Herbal Forms: loose dried powder, capsulized, tincture, infused oil, ointment or cream Usage : Capsicum can be used liberally in a variety of forms. Capsulized dried Capsicum is probably the easiest and most practical way to take the herb. Commercial ointments can be purchased which contain from 0.025 to 0.075 percent capsaicin for the treatment of pain and psoriasis. Dried Capsicum can be mixed in hot water or can be used in tincture form, which can be added to water or juice. Safety: Capsicum is generally recognized as safe in the United Sates and has been approved as an over-the-counter drug. A four week feeding study of Capsicum concluded, “It appears that red chile is relatively non-toxic at the doses tested in male mice.”4 The seeds of the fresh Capsicum plant should not be ingested. Doses of Capsicum should be followed precisely as prescribed to avoid gast rointestinal upset. Pregnant women or breast feeding mothers should avoid using Capsicum. Initial use of topical Capsicum can result in some skin irritation or burning; howe ve r, clinical tests have found that this diminishes with continued application. Avoid direct contact with eyes or other mucous membranes in general.
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