Think you take a complete multivitamin? Well, maybe not. Typical multivitamins simply do not provide enough nutrients for optimal health. Or for that matter, the proper forms and carriers of nutrients to do the job right—the all important task of providing you with essential nutrients for health. Not so easy these days? Well, Hank & Brian’s Mighty Multi-Vite! can help—a lot!
MIGHTY MULTI-VITE! DEFINES A COMPLETE MULTIVITAMIN
The task of providing you with a complete set of nutrients—as easily absorbed forms—is where Hank & Brian’s Mighty Multi-Vite! shines brightly in the world of #multivitamins. Quite simply, Dr. Hank Liers carefully formulated Mighty Multi-Vite! as the most advanced, complete multivitamin available. It uniquely includes a wide range of vitamins, minerals, cofactors, herbs, antioxidants, and Nrf2 activators (nutrients that allow your body to make its own antioxidants). This wide range of nutrients alone puts Mighty Multi-Vite! in a class by itself.
Calling HPDI’s Mighty Multi-Vite! “complete” is an understatement. While other multivitamins may contain more ingredients, Dr. Hank’s goal is not to “stuff” as many ingredients (or amounts) into Mighty Multi-Vite! as possible. That is a “shotgun” approach—Dr. Hank avoids it—that often results in too large capsules, huge tablets (“horse pills”), or eight-per-day dosages that are hard to consume—and even harder to stick with over time. You get the idea.
Instead, Dr. Hank carefully designed Mighty Multi-Vite! to include both a broad range of essential nutrients and abundant amounts of the most important nutrients for health in easily to assimilate forms using multiple carriers that give the body choices. For example, the body requires far smaller amounts of coenzyme B vitamins (which are the natural forms best utilized by cells) than conventional forms of B vitamins. This allows for more efficient dosing and does not “waste” space in the capsule allowing more room for other nutrients, like antioxidants and Nrf2 activators. In a nutshell, few multivitamins are so well balanced and designed carefully to give the body what it needs for optimal health. You get it all in just four (4) regular size capsules, daily. How easy is that?
As I mentioned, Mighty Multi-Vite! includes highly absorbable forms of nutrients. These include mineral carriers like Krebs Cycle bionutrients—carriers that feed the energy producing system in the body—including malates, ascorbates, aspartates, sebacates, citrates, and glycinates. Thus, we use magnesium malate, and calcium ascorbate and citrate. The whole point is that the body immediately recognizes and utilizes these forms.
In practice, Dr. Hank’s inclusion of the most absorbable forms and carriers means you actually absorb and assimilate more of the ingredients—whether vitamins, minerals, cofactors, antioxidants, herbs, or Nrf2 activators—than you would from the same old conventional forms and carriers (oxides, for example) found in many multivitamins, especially “off-the-shelf” or “one-a-day” type formulas. Many so-called “boutique” formulas use conventional forms and carriers. Who knew!?
To top it off, many advanced ingredients in Mighty Multi-Vite! (like Nrf2 activators) are nowhere to be found in the vast majority of multivitamins. You might not even know to look for them!
However, the biggest benefit of the science behind Mighty Multi-Vite! is how you feel when taking it. I really feel the difference. Your multivitamin should work for you and support your best health. If your multivitamin is not giving you what you need—or you can’t feel the difference it makes in your life—then why take it? Maybe it is better than nothing, but why settle for less when better options are available?
The single biggest reason I am a huge fan of Mighty Multi-Vite! is because I have taken it for more than 20 years. I have gained all the benefits it offers—for thousands of days—year after year. I am more than confident in its superior benefits not just for me, but because I have seen many other people gain benefits, and heard countless positive testimonies from happy customers. I know you can gain major benefits from it, too.
But wait, there’s more! Read the overview (below) for some nitty, gritty details distinguishing Dr. Hank’s design of Mighty Multi-Vite!. These not-so-little details can make all the difference for your good health.
MIGHTY MULTI-VITE! OVERVIEW
COMPLETE, BALANCED ESSENTIAL NUTRITION – Provides a full spectrum of nutrients exceptionally well balanced for creating and maintaining optimal heatlh. Mighty Multi-Vite! offers all of the most important vitamins along with minerals, cofactors, antioxidants, herbs, and Nrf2 activators.
RAPID, EASY ASSIMILATION – Incorporates the most bioavailable vitamin and mineral carriers most easily recognized and rapidly assimilated by your body. In addition, the formula uses multiple forms of mineral carriers to ensure assimilation. In addition, the capsule form (compared to tablets) speeds uptake because it does not require time for the body to break it down.
ENERGIZING – Includes coenzyme form vitamins and Krebs Cycle bionutrients that work with your body to create super high energy levels. Provides significantly higher levels of B vitamins than most multivitamins (especially coenzyme B vitamins). These vitamins are known for boosting energy, supporting the body during times of stress, and supporting nerve, heart, brain and immune system function.
FEATURES & BENEFITS OF MIGHTY MULTI-VITE! MULTIVITAMIN
• A full-spectrum of B-complex vitamins, most in coenzyme forms, as well as more conventional forms. Includes Vitamin B1 as thiamin HCl, Vitamin B2 as riboflavin and riboflavin-5’-phosphate, Vitamin B3 as niacinamide and niacin, Vitamin B5 as pantothenic acid, Vitamin B6 as pyridoxine HCl and pyridoxal-5’-phosphate, folate as L-5-methyltetrahydrofolate calcium (L-5-MTHF), Vitamin B12 as methylcobalamin, and biotin
• All of the most absorbable and usable forms of the fat-soluble vitamin group, including Vitamin A (as alpha & beta-carotene), Vitamin E (as d-alpha tocopherol succinate), Vitamin D3 (as cholecalciferol), and Vitamin K (as phytonadione (K1) and MK-7 (menaquinone-7) (K2))
• A complete and balanced supply of the most abundant carotenoids found in the body, including beta-carotene, alpha-carotene, lycopene and lutein
• A variety of the best-known herbal preparations, including whole grape extract (seeds, pulp, skin), turmeric (95% curcuminoids), broccoli sprouts powder, and octacosanol (from rice bran)
• All of the known essential minerals in forms readily absorbed and recognized by the body including calcium, magnesium, potassium, zinc, manganese, boron, copper, chromium, molybdenum, vanadium, and selenium
• Mineral carriers such as ascorbates, Krebs cycle bionutrients, and amino acids providing the body with important metabolic substrates and vitamins, including citrate, succinate, malate, glycinate, aspartate, sebacate, and Vitamin C
• Contains a wide range of antioxidants and Nrf2 activators including Buffered Vitamin C, Vitamin A, Vitamin E, Carotenoids, NAC, whole grape extract, curcuminoids, and broccoli sprouts
• Includes N-Acetyl-L-Cysteine (NAC), an important sulfur-containing amino acid supporting the body’s antioxidant and detoxification systems, and betaine HCl to support digestive processes
• Includes Choline and inositol which play a crucial role in all the cell membranes of the body, in brain function, and in liver function
• Includes Nrf2 transcription factor activators (i.e., Nrf2 activators), which are nutrients that direct cells to produce their own antioxidants, making your body an antioxidant production machine. Most multivitamins contain few, if any Nrf2 activators. Mighty Multi-Vite! is one of the few multivitamins whose design intentionally provides Nrf2 activators.
• Exclusion of the prooxidant minerals of iron and iodine which can lead to excessive free-radical production and PABA that sometimes adversely affects brain function in some individuals. (Note: we sell iodine formulas separately.)
• Capsule form ensures maximum absorption of ingredients
• Four-per-day full dosage allows for partial dosing for children, seniors, and pets
• Vegetarian formula (including capsule) suitable for vegetarians and vegans
• Exclusion of ingredients such as wheat, dairy, corn, soy, gluten, and egg having well-known antigenic properties and that may be associated with allergy or delayed hypersensitivity reactions
• A minimum of excipients, fillers, lubricants, etc. having deleterious effects in some individuals
• NON-GMO (no genetically modified organisms)
CONSIDER MIGHTY MULTI-VITE!
Most people don’t think too hard about their multivitamins. They focus on taking the supplement de jour (whatever supplements make headlines) or continue taking the same one-a-day multivitamin.
That is too bad because a multivitamin truly is the single most important nutritional supplement. We at HPDI place the multivitamin first—above all other supplements—in importance. Our Foundational Supplements system starts with a multivitamin because it is the only formula designed to provide the basic nutrients essential for health. That is, you can add other essential nutrients (like vitamin C or essential fats) to complete your regimen. But the multivitamin remains king (or queen) because it establishes your baseline nutrient intake. That is something is to consider when selecting the multivitamin you will take daily for the rest of your life.
Ask yourself: Is my multivitamin complete, providing all the most important nutrients I need for health? Is it easily absorbed using multiple, readily assimilated forms and usable carriers of those nutrients? Is it proven to work? Is it easy to take? Do I notice the effects?
If you answer “no” to any of these questions, or if you simply never think about it, then consider Hank & Brian’s Mighty Multi-Vite!. You should love your multivitamin because of how it supports your health. We think you will love Mighty Multi-Vite!.
As the year draws to a close, it is a good time to reflect on the past year, as well as to look forward to the New Year with respect to one’s health goals. This includes assessing your nutritional supplement regimen. There is more confusion about nutritional supplements than ever. With this in mind, we present “Megavitamin Myth-Busting” from Andrew W. Saul, PhD and Helen Saul Case from the Orthomolecular Medicine News Service to clear confusion about vitamins and other nutritional supplements, and set the record straight. Enjoy! ~
Commentary by Andrew W. Saul and Helen Saul Case
(Orthomolecular Medicine News Service, Dec 23, 2019)
People are so confused about endless internet vitamin legends. Now it’s time to be blunt and set the record straight.
The media says that taking vitamins will kill me. Is that so? NO.
It’s been said that the FDA does not regulate nutritional supplements. Is that true? NO. “FDA regulates both finished dietary supplement products and dietary ingredients.” [U.S. Food and Drug Administration, http://www.fda.gov/Food/DietarySupplements/ ]
Do I need special vitamin preparations for my body to absorb them? NO. With vitamins, there is usually no absorption issue. All animals need and absorb nutrients, including vitamins. If they didn’t, they’d be long extinct. The surface area of your small intestine, if all the nooks and crannies were flatted out, would be half the size of a regulation basketball court. There is ample opportunity for nutrient absorption.
Some persons have a genetic trait that makes it more difficult for them to convert dietary carotene into active vitamin A. Does this mean they must take preformed oil retinol A? NO. Even a poor converter can still make sufficient vitamin A from carotene if they eat lots of fruits and vegetables . . . which we should all be doing anyway.
Is niacin clinically incompatible for people with methylation issues? NO. Theoretically, perhaps. But Dr. Abram Hoffer, the world’s most experienced niacin physician, has said it is not clinically significant.
Aren’t B-vitamins so poorly absorbed that they need to be methylated? NO. Comparing their molecular weights with the simplest of all sugars, we find:
•Glucose (C6H12O6) weighs 180 grams/mole • Niacin (C6H5NO2) weighs 123 g/mol • Pyridoxine 169 g/mol • Pantothenic acid 219 g/mol • Biotin 244 g/mol • Thiamin 265 g/mol • Riboflavin 376 g/mol • Folic acid or folate 441 [Methylated may be better. However: 1) See: Bailey LB. Dietary reference intakes for folate: the debut of dietary folate equivalents. Nutr Rev. 1998;56(10):294-299. And 2) The Linus Pauling Institute says: “Unmetabolized folic acid concentrations returned to baseline levels at the end of the study, suggesting that adaptive mechanisms eventually converted folic acid to reduced forms of folate.” • Cobalamin 1,355 g/mol [methylated is probably better in this case]
Do I need to consume vitamin K-2 because K-1 in foods is ineffective? NO. Your body will make the conversion for you. John Cannell, MD, writes that the conversion “occurs through an intermediary molecule, vitamin K3, which is made in the intestine from vitamin K1. [Hirota Y, et al. J Biol Chem. 2013 Sep 30.] “[M]odern humans are deficient in K2 because they do not eat large quantities of vitamin K1 containing foods. If we look at Paleolithic humans, they probably got high amount of vitamin K2 from eating large quantities of kale and spinach-like foods, very high in K1, which then supplied their tissues with all the vitamin K2 they needed. [A]s far as getting enough vitamin K2, the best thing to do is eat your greens.”
I drink milk, and I spend time in the sunshine. Don’t I get plenty of vitamin D? NO. If your shadow is longer than you are, you are not making vitamin D from sunlight, says William Grant, PhD. Thus, little vitamin D is made by your body in the six colder months of the year. This is also true in the summer months if only exposed to sun mornings and afternoons. http://www.orthomolecular.org/resources/omns/v07n07.shtml
(Andrew W. Saul, OMNS founder and Editor-in-Chief, has coauthored four books with Abram Hoffer, MD, and is editor of the textbook The Orthomolecular Treatment of Chronic Disease. OMNS Assistant Editor Helen Saul Case is the author of The Vitamin Cure for Women’s Health Problems, Vitamins & Pregnancy: The Real Story, and Orthomolecular Nutrition for Everyone.)
Nutritional Medicine is Orthomolecular Medicine
Orthomolecular medicine uses safe, effective nutritional therapy to fight illness. For more information: http://www.orthomolecular.org
The peer-reviewed Orthomolecular Medicine News Service is a non-profit and non-commercial informational resource.
Comments and media contact: email@example.com OMNS welcomes but is unable to respond to individual reader emails. Reader comments become the property of OMNS and may or may not be used for publication.
It has finally arrived — the exciting new Terraflora™ synbiotic. A synbiotic is a combination of probiotics and supporting prebiotics. This advanced soil-based organisms formula fills the need for a superb probiotic/prebiotic in Health Products Distributors’ arsenal of highly effective formulas. Terraflora is extremely supportive of your entire microbiome and gut-based immune system.
ADVANCED GUT MICROBIOME SUPPORT
INTRODUCING THE MICROBIOME
For centuries, scientists have recognized a limited number of pathogenic bacteria for which antibiotic therapies have become the mainstream treatment. However, advanced DNA sequencing techniques coupled with data revealed from the Human Genome Project have made it possible to study a vast world of ‘germs’ – both pathogenic and beneficial – that dwarf our previous knowledge.
While we inherit more than 22,000 genes from our parents, the bacteria that exist in and on our bodies contain at least eight million bacterial genes which amounts to 360 times more bacterial genes than human genes! The genetic material from bacteria that populate the human body is known as the human microbiome.
Your microbiome is likely similar to that of your immediate family, as we naturally inherit our family’s microbiota. Through the course of our lives, we pick up other bacteria from food, water, and various components of our environment. Scientists estimate that we each carry 100 trillion bacteria in our intestinal tract alone!
In this teeming landscape of bacteria, both you and the bacterial communities derive benefit. Many researchers use the term “mutually beneficial” when describing the evolving bacterial communities in our gut.
THE BALANCE OF BACTERIA AND YOUR HEALTH
In 2010, the Human Microbiome Project published an analysis of 178 genomes from bacteria that live in or on the human body. 10,000 different types of bacteria in the human body have been identified, including novel genes and proteins that serve functions in human health and disease. The vast numbers of bacteria discovered appear to provide benefit to the human body, not harm.
Martin J. Blaser, chairman of the Department of Medicine and a professor of microbiology at the New York University School of Medicine states: Germs make us sick, but everyone focuses on the harm. It’s not that simple, because without most of these organisms we could never survive.
As scientists map the human microbiome, they are beginning to understand the difference between normal and abnormal. Proper bacterial balance is vital to healthy immune function, providing appropriate protection against potential infections, playing a critical role in the digestion and absorption of food and nutrients, and even regulating mood. The interaction of multiple strains of bacteria is an essential element in health and wellbeing.
The optimal balance of bacteria can be altered in many ways such as broad spectrum antibiotics that kill bacteria in the gut indiscriminately; prescription medications; disease-carrying bacteria, fungi, parasites, and yeasts; stress; lack of sleep; poor diet & lifestyle; geography and travel; and physical disconnection with nature.
Researchers have shown that changes in gut bacteria even affect the brain and personality. For example, germ-free mice have been shown to be dramatically more anxious and hyperactive than their counterparts with a normal microbiome. These changes have also been associated with neurochemical changes in the mouse brain.
Evidence supports the concept that microbiota balance can have a large impact on healthy metabolic processes. This delicate balance has a definite impact on nutrient acquisition and overall energy regulation.
The impact of the gut microbiota is far reaching in the body. Continued investigation into the microbiome will yield powerful data, enabling the development of novel options to support healthy mood, metabolism, signaling molecules and much more.
FEATURES OF TERRAFLORA
Terraflora is a novel broad spectrum synbiotic formulated with a combination of spore form probiotics, and advanced, food-based, ancient prebiotics designed for robust support of gastrointestinal health.
Innovative gut microbiome support
Multi-strain, soil-based, beneficial bacteria to support microbial diversity in the GI tract
Proprietary blend of ancient, wild-harvested, certified organic prebiotic support
Terraflora’s advanced formulation of beneficial strains and ancient prebiotics are designed to support the biodiversity reflected in ancestral diets
Shelf stable and requires no refrigeration
Highly bioavailable strains are protected by a natural seed-like structure, guarding against environmental factors and stomach acid
Strains effectively generate highly bioavailable riboflavin (vitamin B2) and antioxidant carotenoids, right at the sight of absorption
Induces anti-inflammatory effects to foster gut homeostasis
Supports immune health
TERRAFLORA KEY BENEFITS
VIABILITY – The natural seed-like structure encasing the probiotc bacteria in Terraflora protects them against degradation by stomach acid, so they reach their target destination — the lower GI tract — intact and alive.
ADVANCED PREBIOTIC SUPPORT – Uniquely formulated with organic seaweeds (see reference 2 below), mushroom extracts (see reference 1 below), and humic acid (see reference 3 below). Terraflora’s advanced prebiotic complex contains a diverse spectrum of naturally occurring food-based polyphenols and polysaccharides designed to support healthy intestinal flora
ANTIOXIDANT BENEFITS – Terraflora features Ribospore™ (Bacillus pumilus) and Bacillus megaterium EM144™, two novel probiotic strains shown in studies to produce highly bioavailable, gastric stable antioxidant carotenoids, right at the site of absorption.
CONVENIENT — NO REFRIGERATION REQUIRED! – To ensure potency and viability, most probiotics require refrigeration and have a short shelf life. The inherently resilient bacteria in Terraflora are heat-stable, and require no refrigeration, uniting convenience and efficacy.
WHY SOIL-BASED ORGANISMS?
Through diet and lifestyle, our earliest ancestors were routinely exposed to spore-based bacteria found in healthy soils and our natural environment. In our modern and hyper-sanitized world, this primitive yet vital connection to nature has been all but lost.
Soil-based organisms (SBOs) define a class of probiotic supplements based on a greater understanding of the incredible diversity of the human gut, coupled with a deeper appreciation for how humans and their commensal “helper” bacteria work together to produce a healthy system.
Soil-based bacteria have a three-stage life cycle, with each stage triggered by nutrient availability: vegetative growth, sporulation, and germination. The sporulation phase is particularly relevant to its potential as a probiotic. The spore structure preserves the bacteria in a dormant phase and against any harm whether in any terrestrial environment or in the acidic environments of the stomach and upper intestines. When these probiotic microbiota are ingested, they travel all the way to the lower intestine where they come alive. Like a seed, warm temperatures, moisture, and nutrients stimulate the germination stage where bacteria emerges from dormancy. Soil-based probiotics are well-adapted to the environment of the gut, and have been shown to remain in the digestive tract where they can provide long term benefit.
SBO probiotics are characterized by two traits that make them superior to other probiotics: 1) the spore phase enabling natural resistance to the harsh environment of the upper digestive tract and stomach, and 2) inherent environmental stability that does not require the addition of specialized coatings or preservatives to ensure a clinically relevant amount reaches the appropriate areas of the gut.
Though SBO probiotics are based directly on symbiotic communities of bacteria found in natural soil environments, these organisms are not harvested directly from the earth to be packaged as a supplement. They are instead produced in a safe, monitored environment to ensure specificity of the strains.
Why are soil-based probiotics so popular among clinicians, and what makes them so important? The answer to this question lies in an understanding of the human gut microbiome.
MULTI-STRAIN BACILLUS COMPLEX
Bacteria are incredibly ubiquitous, highly adaptable ancient life forms that evolved relatively unchanged over nearly 4 billion years. Bacillus, in particular, is arguably Earth’s most resilient bacteria―the oldest of which having been cultured and identified from the abdominal contents of extinct bees preserved in amber for 25 to 40 million years.
Through diet and lifestyle, our earliest ancestors were routinely exposed to bacillus spores found in healthy soils and our natural environment. Yet we no longer have routine exposure to bacillus spores due to the hyper-sanitization of our post-industrial civilization. Terraflora’s unique probiotic + prebiotic bio-complex of commensal bacillus strains reconnect humans with their ancestral environment.
Terraflora bridges the lost connection to our natural environment, with a sophisticated probiotic bio-complex of specific, commensal Bacillus strains. Selected for their unique characteristics, Bacillus are gram-positive bacteria that can exist in two forms. Under favorable conditions the bacteria grow in a vegetative form, but when starved of nutrients they differentiate into a dormant life form known as an “endospore” or simply a “spore”. These spores come alive when introduced to an ideal environment, like the human gut.
Terraflora’s innovative DNA verified strain combination introduces Ribospore™ (Bacillus pumilus) and Bacillus megaterium EM144™, microorganisms scientifically proven to effectively produce highly bioavailable antioxidants and riboflavin, right at the site of absorption. Riboflavin is an essential nutrient for maintaining a healthy digestive tract.
In addition to our proprietary new RibosporeTM (Bacillus pumilus) and Bacillus Megaterium EM144TM—Bacillus subtilis, Bacillus clausii, and Bacillus coagulans complete Terraflora’s multi-strain probiotic bio-complex.
ADVANCED PREBIOTIC BIO-COMPLEX
Terraflora™ contains a prebiotic blend of certified organic, wild-harvested seaweeds, mushroom extracts, and humic acid. These ancient, food-based prebiotics support commensal microbiota with a diverse spectrum of naturally-occurring polyphenols and polysaccharides designed to strengthen healthy intestinal flora. This bio-complex includes:
LARCH ARABINOGALACTAN: A solvent-free water extract that retains all bioactive polyphenolic flavonoids present in Larch, including taxifolin and quercetin. Larch arabinogalactan is a densely branched, non-starch polysaccharide consisting of galactose and arabinose molecules. It has been shown to increase production of critical short-chain fatty acids (SCFAs) such as butyrate in the gut. Butyrate is the principle fuel for intestinal cells and supports healthy tight junctions in the gut lining. In addition, Larch arabinogalactan enhances beneficial gut flora and increases levels of beneficial intestinal anaerobes, particularly Bifidobacterium longum.
FUCUS VESICULOSUS (BLADDERWRACK) & UNDARIA PINNATIFIDA (WAKAME) EXTRACTS: These are certified organic solvent-free water extracts that are wild-harvested from clean ocean waters of Patagonia and Nova Scotia. They are rich in marine polyphenols and complex, sulfated, fucose-rich polysaccharides called fucoidans. Fucoidans are found in edible brown seaweeds and are shown to have multiple bioactivities including the support of healthy inflammation response in the GI tract. In vitro studies show that fucoidan effectively inhibits adhesion of pathogenic bacteria Helicobacter pylori and Escherichia coli to human cells. Furthermore, they increase the abundance of beneficial bacteria and significantly decrease inflammatory response and antigen load of the gut microbiota. In addition, they may also help maintain levels of beneficial bacteria in the gut during antibiotic use and are known to increases the integrity of tight junctions in the gut lining.
NORDIC CHAGA EXTRACT: This ingredient is a certified organic hot-water extract obtained exclusively from the mushroom fruiting body. It is sustainably wild-harvested in the Arctic (Finnish Lapland forest) and contains a diverse spectrum of polysaccharides and polyphenols. This extract has been shown to help protect against acute colonic inflammation and shown to decrease the Firmicutes-to-Bacteroidetes bacterial ratios. Decreased Firmicutes-to-Bacteroidetes ratios are significantly associated with lower body mass index (BMI).
RED REISHI EXTRACT: A certified organic extract obtained by traditional hot-water extraction methods exclusively from the mushroom fruiting body. It contains a diverse spectrum of polysaccharides and polyphenols that have been shown to increase microbiota richness and regulate intestinal barrier function. It is known to support the health of the gut lumen. Furthermore, is has been shown to decrease Firmicutes-to-Bacteroidetes ratios and endotoxin-bearing Proteobacteria levels.
HUMIC ACID: The humic acid in Terraflora is water extracted from ancient freshwater humate deposits. It has been shown to significantly increase the overall concentration of colonic microbiota.
Abstract Mushrooms have long been used for medicinal and food purposes for over a thousand years, but a complete elucidation of the health-promoting properties of mushrooms through regulating gut microbiota has not yet been fully exploited. Mushrooms comprise a vast, and yet largely untapped, source of powerful new pharmaceutical substances. Mushrooms have been used in health care for treating simple and common diseases, like skin diseases and pandemic diseases like AIDS. This review is aimed at accumulating the health-promoting benefits of edible mushrooms through gut microbiota. Mushrooms are proven to possess anti-allergic, anti-cholesterol, anti-tumor, and anti-cancer properties. Mushrooms are rich in carbohydrates, like chitin, hemicellulose, β and α-glucans, mannans, xylans, and galactans, which make them the right choice for prebiotics. Mushrooms act as a prebiotics to stimulate the growth of gut microbiota, conferring health benefits to the host. In the present review, we have summarized the beneficial activities of various mushrooms on gut microbiota via the inhibition of exogenous pathogens and, thus, improving the host health.
The marine environment is an untapped source of bioactive compounds. Specifically, marine macroalgae (seaweeds) are rich in polysaccharides that could potentially be exploited as prebiotic functional ingredients for both human and animal health applications. Prebiotics are non-digestible, selectively fermented compounds that stimulate the growth and/or activity of beneficial gut microbiota which, in turn, confer health benefits on the host. This review will introduce the concept and potential applications of prebiotics, followed by an outline of the chemistry of seaweed polysaccharides. Their potential for use as prebiotics for both humans and animals will be highlighted by reviewing data from both in vitro and in vivo studies conducted to date.
Abstract AIM: To test the effects of humic acids on innate microbial communities of the colon. METHODS: We followed the effects of oral supplementation with humic acids (Activomin®) on concentrations and composition of colonic microbiome in 14 healthy volunteers for 45 d. 3 × 800 mg Activomin® were taken orally for 10 d followed by 3 × 400 mg for 35 d. Colonic microbiota were investigated using multicolor fluorescence in situ hybridization (FISH) of Carnoy fixated and paraffin embedded stool cylinders. Two stool samples were collected a week prior to therapy and one stool sample on days 10, 31 and 45. Forty-one FISH probes representing different bacterial groups were used. RESULTS: The sum concentration of colonic microbiota increased from 20% at day 10 to 30% by day 31 and remained stable until day 45 (32%) of humic acid supplementation (P < 0.001). The increase in the concentrations in each person was due to growth of preexisting groups. The individual microbial profile of the patients remained unchanged. Similarly, the bacterial diversity remained stable. Concentrations of 24 of the 35 substantial groups increased from 20% to 96%. Two bacterial groups detected with Bac303 (Bacteroides) and Myc657 (mycolic acid-containing Actinomycetes) FISH probes decreased (P > 0.05). The others remained unaffected. Bacterial groups with initially marginal concentrations (< 0.1 × 109/mL) demonstrated no response to humic acids. The concentrations of pioneer groups of Bifidobacteriaceae, Enterobacteriaceae and Clostridium difficile increased but the observed differences were statistically not significant. CONCLUSION: Humic acids have a profound effect on healthy colonic microbiome and may be potentially interesting substances for the development of drugs that control the innate colonic microbiome.
Almost daily articles, reports, or studies appear claiming nutritional supplements are not effective. The claims vary, but the verdict is always there is little or no scientific evidence proving supplements (or the nutrients in supplements) work. Others assert that people who take supplements have the world’s most expensive urine. This is nonsense! The scientific evidence is clear, available, and it has been for a long time.
Among the many problems with these reports is bashing supplements based on studies using low dose or non-therapeutic levels of nutrients. There is frequently failure to consider the importance of synergy among nutrients. Often there is data manipulation via statistical methods (often in meta-analyses).
Well beyond the question of whether supplements support health are the factors in modern life that create a greater needs for supplementing with important vitamins, minerals, cofactors, and other nutrients.
This month we present “Seven Arguments for Nutritional Supplements.” As the title implies, there are at least seven solid arguments for nutritional supplementation. There are actually a lot more.
To preview these arguments in favor of taking supplements, they are: 1) reduced food quality, 2) nutrient density varies by location, 3) modern lifestyles and stress, 4) environmental pollution, 5) too low RDAs, and 6) promotion of health and delaying of aging, and 7) the human right to correct information.
Essential Fatty Acids (EFA) are one type of essential nutrient required for health.
We at HPDI re-publish articles from the Orthomolecular News Service (OMNS) because the authors provide much needed truth. Truth the form of correcting the false assumptions of anti-supplement propagandists to clarify the benefits of nutritional supplements. This information can help people be healthier easily and at relatively low cost.
HPDI offers a full line of foundational nutritional supplements, including multivitamins, vitamin C and antioxidant formulas, essential fats, and high-RNA Rejuvenate! superfoods. We also offer nearly 100 other nutritional supplements from single nutrients to condition specific formulas. See our full product overview.
Enjoy this article from the Orthomolecular News Service (OMNS). ~
Seven Arguments for Taking Nutritional Supplements
by Dag Viljen Poleszynski, PhD
(OMNS Sept 12 2018)
One of the most vitamin-restrictive countries in the world is Norway. There, authorities limit potencies to only slightly higher than RDA (Recommended Dietary Allowance) levels for dietary supplements sold outside of pharmacies. The traditional reasoning is that most people receive the nutrients they need from a “balanced diet.” 
The authorities are also obsessively concerned that some vitamins and minerals are harmful in high doses. And, since an intake of water-soluble vitamins in excess of needs is excreted in the urine, Norwegian “experts” advise that taking supplements is a waste of money.
Accordingly, the argument goes, the public should be protected not only from possible harm, but also from wasting money on unnecessary nutrients. The official policies on nutritional supplements vary within OECD (Organization for Economic Cooperation and Development) countries. Some are more liberal, while others are even more restrictive.
The official view on the connection between nutrient intake and possible toxicity is illustrated by the Norwegian Food Authority in a graph. 
Perceived risk from intake of nutrients. (Source: Expert Group on Vitamins and Minerals. Safe upper limits for Vitamins and Minerals. May 2003: Food Standards Agency, UK.)
The graph illustrates the official view on nutrients, assuming that nutrients function in the same way as pharmaceuticals, which they do not. Supplements of most vitamins, but also minerals and other nutrients, do not have very serious side effects even when taken at very high levels – in contrast with most drugs. [3,4] The fact that most of the chemotherapeutic drugs used against cancer have none or even just marginal effects against most cancers , while at the same time cause a lot of serious side effects, is rarely up for discussion.
The idea that nutritional supplements are not safe has a legal underpinning in Norwegian Food Law, which in section 16 prohibits sale of any food which is not safe: “Any food shall be considered not to be safe if it is seen as detrimental to health or not fit for consumption.” 
However, the Norwegian authorities do admit that vitamin D supplements are needed during part of the year.  Only part of the year? One third of Norway is within the Arctic Circle. Norway has far too little sunshine (especially during winter months) to get adequate levels of vitamin D from UVB radiation on the skin.
The authorities also recommend that pregnant women take folic acid to prevent birth defects, and omega-3-fatty acids may be advisable for those who do not eat fish regularly. Norwegians have a long tradition of giving children cod liver oil, which in a daily tablespoon provides enough vitamin A and D and essential fatty acids to cover basic needs.
Essential and conditionally essential nutrients
There are thousands of dietary supplements on the market, including 40+ essential nutrients alone and in various combinations, i.e. vitamins, minerals, trace elements and fatty acids. However, a number of other nutrients are “conditionally essential”, meaning that the body normally can make these molecules, but some people do not make optimal amounts. Examples are L-carnitine, alpha-lipoic acid, the methyl donor betaine,  chondroitin sulfate, coenzyme Q10, choline, amino acids such as tyrosine or arginine, and “essential” sugars normally formed in the body. 
Healthy young people normally make sufficient amounts of conditionally essential molecules in the body, although the levels are not always optimal. With inadequate levels of minerals or vitamins, key enzymes in biochemical pathways may not function optimally.
Due to genetic mutations, some enzymes may have increased needs for certain cofactors (vitamins), which can prevent them from functioning optimally. Some enzymes only function normally when supplied with cofactors in greater amounts than normally required.
If supplements of essential nutrients prove insufficient for optimal enzyme function, “conditionally essential” nutrients may be added as part of a comprehensive, therapeutic program.
Parents are advised to become familiar with the literature on essential nutrients, for instance by consulting the Orthomolecular News Service. Children should be given supplements in appropriate doses and in a suitable form. Pills should not be given before children can control the swallowing reflex. Multivitamin powder can be given dissolved in water or juice. Parents should not dose vitamin C so high that a child comes to school or kindergarten with loose bowels or diarrhea.
In high doses, niacin may cause unpleasant side effects such as flushing and itching lasting up to several hours.  Although this is not dangerous, it may cause a child to feel unwell and anxious. Starting niacin supplementation with a low dose and gradually increasing it will allow the body to adapt and avoid the niacin flush.
A multivitamin supplement containing moderate amounts of niacin is often adequate until a child is 8-10 years old. For younger children, the dosage should start with only a few tens of milligrams, and not increased to more than 50-100 mg/day. Adults may gradually get used to taking 1,000-1,500 mg/d divided into 3 doses per day.
When it comes to omega-3 fatty acids (omega = ω) such as EPA and DHA, children may be given cod liver oil and served fish and/or other seafood 2-3 times a week. It is important to check the dose of vitamin A supplied, as it can be toxic in high doses, especially for children. One problem with cod liver oil today is that vitamin D has been removed during processing, thus changing the natural ratio of the two vitamins so that we ingest relatively too much of vitamin A. 
Higher dosages may be given after having consulted a therapist who has measured the ratio of omega-6 to omega-3 fatty acids in relevant cell membranes (red blood cells). In most industrialized countries, many people get too much of the omega-6 fatty acids, and would therefore benefit from eating more seafood or taking supplements with omega-3 fatty acids derived from organisms low in the food chain (algae, krill).
Flax seeds contain a high level of the essential omega-3 fatty acid alpha-linolenic acid, and freshly ground flaxseed meal or flax oil can be mixed with breakfast cereals or smoothies. Note that it may be advisable to limit eating farmed fish to once per week, since their fodder contains less omega-3 fatty acids than the food eaten by wild fish, and possibly also contains more contaminants.  Some researchers even warn against letting children eat too much fish because of the content of environmental toxins. [13,14]
Reasons for high-dose supplements of micronutrients
I have identified a number of arguments in favor of supplementing the modern diet with essential nutrients, here summarized with seven headlines. Most people should consider taking a multivitamin supplement containing vitamins and minerals even if they eat a nutritionally balanced diet.
Additional nutrients may contribute to better health and, in some cases, can be of vital importance in our modern world. The arguments are presented in random order, i.e. the order does not reflect priority.
1. The agricultural revolution has reduced food quality
The transition from an existence as hunter and gatherers to urban agriculture around 10,000 years ago began an epoch when foods were mass-produced but had lower nutritional density, compared with the previous food eaten by our ancestors. The nutritional density in many foods has fallen significantly since human societies transformed from hunter-gatherers into resident farmers. This is especially true in the last 60-70 years after agriculture was changed from small, versatile ecologically driven family farms to large, chemical-based, industrial agriculture. 
The reduction of nutritional content in modern crops, compared with older varieties, is well documented.  It is a consequence of soil erosion, loss of essential minerals from continual heavy use, combined with breeding of new varieties, which has increased the size and growth rate of plants by increasing the content of sugar and water and decreasing their mineral content compared to ancient species. At the same time, the relative content of other macronutrients (fat, protein/amino acids) and antioxidants may have been reduced.
Reduced nutritional density in many foods, combined with the use of refined “foods” like sugar, white flour and refined oils, places a greater priority on eating the most nutritious foods.
Farm produce grown organically generally has higher levels of essential nutrients such as trace minerals because the soil contains higher levels of trace minerals and the produce grows slower and thus has more time to absorb nutrients from the soil. Examples of nutrient dense foods are sardines, wild salmon, shellfish, eggs, liver, kale, collards and spinach, sea plants (seaweed), garlic, blueberries, and dark chocolate. 
2. Nutritional content of food varies with geographical location
Nutritional density varies considerably geographically between different regions, even with the same agricultural methods. This was documented in the United States in 1948 by a researcher at Rutgers University in the so-called Firman Bear report.  At that time agriculture was little mechanized, and artificial fertilizers and pesticides were hardly used.
The analysis found large differences in the content of minerals in the same food. The largest variations were found for potassium, sodium, boron and iron in spinach, while the greatest differences in calcium, magnesium and copper content were found in tomatoes.
The soil in areas with relatively low rainfall may in some cases contain an extremely high concentration of minerals, which is reflected in the plants growing there. This was well documented 70 years ago in the book Tomorrow’s Food.  The dentist George W. Heard found that the soil in Hereford, Texas, was exceptionally rich in minerals.
Hereford became known as the “town without a toothache” after a newspaper article from January 29, 1942, reported that Hereford had the lowest incidence of tooth decay of any city in the United States.  Dr. Heard found that people in Hereford had exceptionally few dental cavities and also that the soil locally was especially rich in minerals. He emphasized that the population in the county ate unprocessed food and was drinking raw milk. 
Recent research shows that differences in the content of the selenium in the soil can cause major differences in the concentration of selenium in meat.  For instance, since the soil in Finland is poor in selenium, the authorities decided in the early 1980s to add selenate to commercial fertilizers. A survey of selenium status among 108 healthy young people showed an increase in the blood selenium level of about 50 percent after four years. 
A similar problem with the level of minerals in the soil exists for the content of magnesium. Often when the soil gets depleted of magnesium from heavy use, this essential mineral is not included in soil amendment with fertilizers. Produce grown in soil with an adequate level of magnesium will contain more magnesium than produce grown in soil deficient in magnesium.
Perhaps as many as 70-80% of the US population is magnesium-deficient, which causes many health problems.  Magnesium supplements (chloride, malate or citrate) can provide an adequate level when vegetables grown in soil with adequate magnesium are not available.
3. Stress and the modern lifestyle increase the need for nutrients
Mental stress increases the excretion and hence the need for many nutrients. Among the most important are magnesium and vitamin C, both of which are used by the body in larger quantities during periods of physical and mental stress. [24,25] Compared with our past as hunters and gatherers, today´s stress is often of a more permanent nature. Instead of experiencing occasional situations where we had to fight or flee, many of us live with recurring stress day in and out.
Vitamin C protects the brain and nervous system from damage caused by stress because the synthesis and maintenance of chemical neurotransmitters such as adrenaline and noradrenaline requires adequate levels of vitamin C. 
Vitamin C is also needed to repair collagen which is essential for skin, blood vessels, bones and joints, and muscles. When these are damaged by physical stress, extra vitamin C is necessary.
A controlled trial of 91 adults who experienced increased anxiety and stress 2-3 months after an earthquake in New Zealand in 2011 was divided into three groups, two were given a broad spectrum supplement of micronutrients in low or higher doses.  The supplements were found to alleviate the experience of stress, with the biggest dose having the biggest effect.
Our sedate, modern lifestyle reduces the need for energy from food, which implies a lower food intake or obesity. Loren Cordain, PhD, and coworkers have estimated that hunter-gatherers had significantly higher energy needs than the typical modern office worker. 
A lower energy intake generally reduces the absolute intake of all nutrients, while the need for some nutrients is not always reduced proportionally with energy intake. Overall this suggests that more exercise along with a more nutritious diet, including supplements of essential nutrients and less carbohydrates, will help to prevent obesity and maintain health.
Processing of food reduces its nutritional content, and the finished products are often based on fractions of the original foods. One example is milling grain to make white flour,  which has a lower nutritional density than whole grain flour.
The reduction in nutritional value has accelerated since whole foods are now divided into pieces, for example, boneless chicken breast. When meat is injected with saline to increase the volume, the relative level of essential nutrients is reduced. In the United States, many supermarkets in low-income rural and inner city areas have a limited selection of nutrient-dense foods, compared with high-income areas. 
4. Environmental pollutants increase the need for nutrients
The need for efficient detoxification and excretion is greatly increased by environmental pollution from the chemical industry, herbicides and pesticides used by industrial agriculture, antibiotic treatment of animals, transport, and plastic packaging. 
In our polluted world, the increased toxic load may be compensated for by an increase in nutrients to promote detoxification. One can respond by taking large doses of supplements of essential nutrients, for example, antioxidants vitamin C and E, and an adequate dose of selenium, which help the body detoxify harmful chemicals. Also helpful is regularly taking sauna baths, fasting periodically, and eating an excellent diet that includes generous portions of dark green leafy vegetables and colorful vegetables and fruits. 
A recent study predicts that global warming may reduce the nutrient density in many foods worldwide.  Atmospheric CO2 is estimated to surpass 550 ppm in the next 30-80 years, leading to larger crops with lower content of protein, iron and zinc per energy unit.
Assuming that diets remain constant, while excluding other climate impacts on food production, the researchers estimated that elevated CO2 could cause an additional 175 million people to be zinc deficient and an additional 122 million people to be protein deficient in 2050. Anemia would increase significantly if crops lose even a small amount of iron. The highest risk regions – South and Southeast Asia, Africa, and the Middle East – are especially vulnerable, since they do not have the means and access to compensate using nutritional supplements.
5. The RDA for essential nutrients is too low
The recommended nutrient reference intake (NRI) has been defined by UK authorities and the EU Food Safety Agency as the dose that is adequate for 95 percent of the population.  These authorities have given recommendations for a total of 41 chemical substances,  including 13 vitamins, 17 minerals/trace elements, 9 amino acids and two fatty acids. The problem with such guidelines is that when using the same 0.95 fraction for just 16 of the essential nutrients, the fraction of the overall population that has their needs met with the RDA is less than half (0.9516 = 0.44).
Given the above assumption, the proportion of the population having all nutrient needs met falls below 25 percent for 30 nutrients (0.9530 = 0.21). These 25 percent will not necessarily get optimal amounts, just enough so that they probably will have no deficiencies in accordance with established standards. Each individual is different and has different biochemical needs, so we all need different doses of essential nutrients. Many vitamins and minerals can give additional benefit when taken at higher doses.
The need for several essential nutrients increases with age and sickness. This applies, for example, to vitamin C, vitamin D, magnesium, and iron. In 2017 the Norwegian Food Safety Authority proposed to revise the official maximum levels for vitamins and minerals in dietary supplements. 
Their proposal introduced four different age categories with separate maximum intakes. Initially, the agencies proposed to revise the daily doses allowed in dietary supplements for folic acid, magnesium, calcium, vitamin C and D. At the same time, maximum rates were temporarily suspended for vitamins A, E, K, thiamine (B1), riboflavin (B2), niacin (B3), pantothenate (B5), pyridoxine (B6), cobalamine (B12), biotin, and for phosphorus, iron, copper, iodine, zinc, manganese, selenium, chromium, molybdenum, sodium, potassium, fluoride, chloride, boron and silicon.
The upper limits for some nutrients may be changed in the future. Unfortunately, Norwegian nutrition “experts” will likely continue to limit allowable doses below those freely available in the US and even Sweden.
6. An optimal nutrient intake promotes health and delays aging
A spokesperson for optimal nutritional intake is the well-known biochemist Bruce Ames, who proposed the “triage theory of nutrients,” in which enzymes responsible for cell maintenance functions evolved to have lower affinity for the essential vitamin and mineral cofactors than the enzymes responsible for short-term survival, to preserve life during times of famine. 
Thus, higher levels of vitamins and minerals may delay mitochondrial aging, speed up the repair of large molecules such as DNA and collagen, and generally improve other cellular functions. This is an important rationale for taking higher doses of vitamins and minerals than recommended reference intakes.
Dietary supplements can slow the aging process, in part by reducing the harmful effects of free radicals, known to be involved in many diseases such as cardiovascular disease and cancer. 
Naturally occurring hormones and/or supplements of cofactors needed for optimal hormone production in the body can have a significant life-prolonging effect if the body produces less than optimal amounts.  This is especially relevant for those with a genetic predisposition for disease.
An optimum intake of all nutrients is difficult to achieve even for those who eat almost exclusively an excellent diet of nutrient dense foods, such as meat and innards, fish, shellfish, fowl, eggs, nuts, mushrooms, and vegetables, berries and nutritious fruits. Some nutrients such as folic acid or carotenoids in vegetables are absorbed better from processed than unprocessed foods.
Although vegetables are often considered to be a good source of vitamins, for example vitamin A from carrots, vitamin A is only found in animal products such as liver, egg yolk, fish cod and cod liver oil. Although eating raw vegetables is helpful for several reasons (vitamin C, fiber, microbiota), carotenoids (alpha/beta-carotene, lutein, lycopene) in vegetables are less well absorbed from raw than cooked food and better absorbed in the presence of added fat. [38,39].
Nutrients in vegetables are better absorbed when finely chewed, graded, or mashed , and cooking and grinding meat reduces the energy required to digest it  and increases nutrient absorption .
Orthomolecular pioneer Abram Hoffer and Orthomolecular News Service Editor Andrew W. Saul suggested this list of daily intakes of vitamins and minerals.  The Norwegian 2017 recommendations for adult men and women  are given in comparison. Individual needs may vary substantially from person to person and also with health status.
The figures for optimal intake are obtained from the Independent Vitamin Safety Review Panel of physicians, researchers and academics, who concluded:
“People are deceived in believing that they can get all the nutrients they need from a ‘balanced diet’ consisting of processed foods. To achieve an adequate intake of vitamins and minerals, a diet of unprocessed whole foods, along with intelligent use of dietary supplements is more than just a good idea: it is vital.” [44: 55]
A well-known example is vitamin C, which can effectively fight viral infections, prevent or reverse disease caused by bacteria, and help the body detoxify organic and inorganic toxins.  Vitamin C also reduces the risk for cancer, strengthens connective tissues (collagen), and counteracts stress by increasing the adrenal´s production of cortisol. The dose required is set according to the body’s need.
Nobel Price Laureate Linus Pauling suggested that an optimal daily intake of vitamin C could vary from at least 250 mg up to 20 grams per day.  Because unabsorbed vitamin C attracts water into the gut, some people may experience loose stools, gas and/or diarrhea by ingesting only 1-2 grams at a time, while others with a higher level of stress may tolerate 5-6 grams or more. The dose that causes loose stools is called the “bowel tolerance” for vitamin C.  To avoid the laxative effect of high doses, it is best to take vitamin C throughout the day in smaller divided doses.
When the body is stressed by disease, the gut will naturally absorb more vitamin C because the body needs more. To find the optimal dose, the intake should be increased until bowel tolerance is reached. Some people can tolerate more than 100,000 mg/d of vitamin C in divided doses during serious illness without having loose stool.
Liposomal vitamin C bypasses the normal bowel tolerance because it is absorbed directly through cell membranes, so higher doses can be tolerated without diarrhea.
7. A human right to receive correct information
Access to correct information about food and essential nutrients, including knowledge about the importance of food for health is a fundamental human right. Such information should not only provide a summary of the nutrient content of food, but in our opinion should also explain how dietary supplements can counteract deficiencies and prevent and reverse disease caused by nutrient deficiencies.
We should be free to purchase quality-controlled supplements of essential nutrients and to use them to counteract aging and damage from stress as part of a long-term health plan. The right to reject recommendations by doctors for symptomatic treatment with synthetic, some times life-threatening, drugs to alleviate symptoms should be included. [48,49]
I have not found any formulation of such rights from the Norwegian authorities. The role of parents and their right to receive correct health information is addressed in a book by lawyer Anne Kjersti C. Befring, a fellow at the University of Oslo since 2014. 
The use of dietary supplements is widespread. High doses of vitamins are thought to be helpful because they help the body recover from damage and maintain itself long-term. Many vitamins are not harmful in doses even 10 to 100-fold higher than officially recommended.
Some governments warn about possible negative side effects, even including increased mortality from “excessive” intake of certain supplements. However, supplements of essential nutrients have been available for more than 80 years. They are known to be safe, and the observed side effects are generally mild with few exceptions.
It is possible to ingest too much of certain vitamins and minerals (vitamin A, calcium, iron, copper, selenium) which may exacerbate an existing imbalance or lack of another mineral (magnesium, zinc). It is also important to balance intake of fatty acids in the omega-6 and omega-3 series, as most people get too much omega-6 and not enough omega-3.
Small children can be overdosed with adult doses of for example vitamin A or iron, and pills may be dangerous for babies or young children because they can get stuck in the throat. Therefore, I recommend consulting a doctor or nutritionist educated in orthomolecular medicine. Most people are likely to benefit from taking a broad-spectrum multivitamin/mineral supplement as a basic insurance against deficiencies.
Compared to pharmaceutical drugs, supplements of most essential nutrients are quite harmless. However, some supplements may have poor quality, or contain toxic metals such as lead or cadmium. Therefore, it is the duty of our authorities to ensure that potentially hazardous products or supplements of poor quality are not sold, and that consumers are offered fair prices in a free market.
An example where the Norwegian authorities do not follow up such basic duties is that pharmacies demand more than 1,600 Norwegian Kroner (about $190) per kg of vitamin C in powder form, which would cost less than $20 with free competition and no restrictions in permitted doses or outlets.
Those who want to use natural healing methods, such as the use of food and supplements of essential nutrients to prevent or reverse illness, should consult therapists who are qualified to give advice on how natural therapies can help.
I recommend that anyone interested in supplements read the references for this article as well as the archives of the Journal of Orthomolecular Medicine http://orthomolecular.org/library/jom/ and the Orthomolecular Medicine News Service http://orthomolecular.org/resources/omns/index.shtml . Both are free access online.
(Dag Viljen Poleszynski, PhD, is the editor of Helsemagasinet [Health Magazine] https://vof.no/arkiv/ . He has translated and published a large number of OMNS releases in Norwegian.)
1. National Nutrition Council. Dietary advice to promote public health and prevent chronic disease. Directorate of Health, Oslo January 2011.
22. Hintze KJ, Lardy GP, Marchello MJ, et al. Areas with high concentration of selenium in the soil and forage produce beef with enhanced concentrations of selenium. Journal of Agricultural and Food Chemistry 2001; 49: 1062-7. https://pubs.acs.org/doi/abs/10.1021/jf000699s
23. Mäkelä AL, Näntö V, Mäkela P, et al. The effect of nationwide selenium enrichment of fertilizers on selenium status of healthy Finnish medical students living in South Western Finland. Biological Trace Element Research 1993; 36: 151-7. https://link.springer.com/article/10.1007/BF02783174
24. Dean C. The Magnesium Miracle. Second Edition. New York: Ballantine Books, 2017. ISBN-13: 978-0399594441
25. Hickey S, Saul AW. Vitamin C: the real story. Laguna Beach, CA: Basic Health Publications, Inc., 2008. ISBN-13: 978-1591202233
26. Rucklidge JJ, Andridge R, Gorman B, et al. Shaken but unstirred? Effects of micronutrients on stress and trauma after an earthquake: RCT evidence comparing formulas and doses. Human Psychopharmacology and Clinical Experience 2012; 27: 440-54. https://onlinelibrary.wiley.com/doi/abs/10.1002/hup.2246
27. Cordain L, Gotshall RW, Eaton SB. Evolutionary aspects of exercise. In: Simopoulos AP, ed.: Nutrition and fitness: Evolutionary aspects. World Review of Nutrition and Diet 1997; 81: 49-60. https://www.ncbi.nlm.nih.gov/pubmed/9287503
28. Zenk SN, Powell LM, Rimkus L, et al. Relative and absolute availability of healthier food and beverage alternatives across communities in the United States. American Journal of Public Health 2014; 104: 2170-8. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4202991/
29. Waldbott GL. Health effects of environmental pollutants. Second edition. St. Louis, MI: The C. V. Mosby Company, 1978. ISBN-13: 978-0801653308
36. Halliwell B, Gutteridge HMC. Free radicals in biology and medicine. 5th edition. Oxford, NY: Clarendon Press, 2015. ISBN-13: 978-0198717485
37. Hertoghe T. The hormone handbook. Copyright (c) 2006 Thierry Hertoghe. Surrey, UK: International Medical Publications, 2006.
38. Edwards AJ, Nguyen CH, You CS, et al. a- og ß-carotene from a commercial carrot puree are more bioavailable to humans than from boiled-mashed carrots, as determined using an extrinsic stable isotope reference method. Journal of Nutrition 2002; 132: 159-67. https://academic.oup.com/jn/article/132/2/159/4687130
39. Unlu NZ, Bohn T, Clinton SK et al. Carotenoid absorption from salad and salsa by humans is enhanced by the addition of avocado or avocado oil. The Journal of Nutrition 2005; 135: 431-6. https://www.ncbi.nlm.nih.gov/pubmed/15735074
40. Boback SM, Cox CL, Ott BD et al. Cooking and grinding reduces the cost of meat digestion. Comparative biochemistry and physiology. Part A, molecular & integrative physiology 2007; 148: 651-6. https://www.ncbi.nlm.nih.gov/pubmed/17827047
The peer-reviewed Orthomolecular Medicine News Service is a non-profit and non-commercial informational resource.
Editorial Review Board:
Ilyès Baghli, M.D. (Algeria)
Ian Brighthope, M.D. (Australia)
Prof. Gilbert Henri Crussol (Spain)
Carolyn Dean, M.D., N.D. (USA)
Damien Downing, M.D. (United Kingdom)
Michael Ellis, M.D. (Australia)
Martin P. Gallagher, M.D., D.C. (USA)
Michael J. Gonzalez, N.M.D., D.Sc., Ph.D. (Puerto Rico)
William B. Grant, Ph.D. (USA)
Tonya S. Heyman, M.D. (USA)
Suzanne Humphries, M.D. (USA)
Ron Hunninghake, M.D. (USA)
Michael Janson, M.D. (USA)
Robert E. Jenkins, D.C. (USA)
Bo H. Jonsson, M.D., Ph.D. (Sweden)
Jeffrey J. Kotulski, D.O. (USA)
Peter H. Lauda, M.D. (Austria)
Thomas Levy, M.D., J.D. (USA)
Homer Lim, M.D. (Philippines)
Stuart Lindsey, Pharm.D. (USA)
Victor A. Marcial-Vega, M.D. (Puerto Rico)
Charles C. Mary, Jr., M.D. (USA)
Mignonne Mary, M.D. (USA)
Jun Matsuyama, M.D., Ph.D. (Japan)
Dave McCarthy, M.D. (USA)
Joseph Mercola, D.O. (USA)
Jorge R. Miranda-Massari, Pharm.D. (Puerto Rico)
Karin Munsterhjelm-Ahumada, M.D. (Finland)
Tahar Naili, M.D. (Algeria)
W. Todd Penberthy, Ph.D. (USA)
Dag Viljen Poleszynski, Ph.D. (Norway)
Jeffrey A. Ruterbusch, D.O. (USA)
Gert E. Schuitemaker, Ph.D. (Netherlands)
Thomas L. Taxman, M.D. (USA)
Jagan Nathan Vamanan, M.D. (India)
Garry Vickar, MD (USA)
Ken Walker, M.D. (Canada)
Anne Zauderer, D.C. (USA)
Andrew W. Saul, Ph.D. (USA), Editor-In-Chief
Editor, Japanese Edition: Atsuo Yanagisawa, M.D., Ph.D. (Japan)
Robert G. Smith, Ph.D. (USA), Associate Editor
Helen Saul Case, M.S. (USA), Assistant Editor
Ralph K. Campbell, M.D. (USA), Contributing Editor
Michael S. Stewart, B.Sc.C.S. (USA), Technology Editor
Jason M. Saul, JD (USA), Legal Consultant
Comments and media contact: firstname.lastname@example.org OMNS welcomes but is unable to respond to individual reader emails. Reader comments become the property of OMNS and may or may not be used for publication.
I previously published “Homocysteine Genetics – Coenzyme B Vitamins” in which I considered in-depth how homocysteine (an intermediate chemical in the Methylation Cycle) is formed from methionine, how genetics affects the metabolic pathways, and how B vitamins are used in metabolic pathways. I also wrote “Folate Ingredients – Folinic Acid & 5-MTHF” which discussed how coenzyme folate vitamins are far superior to the synthetic folic acid form. In today’s article, I take a broader view of the topic that encompasses the Methylation Cycle, genetics, and B vitamins.
THE METHYLATION CYCLE
The Methylation Cycle is considered to be one of the most important metabolic pathways in the human body. Its most important function is to provide methyl groups via SAM (S-adenosyl methionine) to hundreds of different body substrates. Methylation is continually occurring in the body, transforming many millions of molecules throughout the body every second. Molecules receive methyl groups, then separate and recombine continuously, transforming and reforming constantly in the ongoing process of life!
As a reminder of the pathways involved in the Methylation Cycle, the following figure provides a flow chart showing the details.
Figure 1. Metabolic Pathways in Methylation Cycle
A key purpose of this cycle is to provide methyl groups (CH3) needed by a broad range of of body functions (over 200 different functions). Examples include:
Influences the genetic expression that parents give their children and helps guide the development of the embryo.
Is needed by the nervous system to produce neurotransmitters and maintain the nerves.
Mobilizes fats and cholesterol so they do not accumulate where they are harmful, such as the arteries and liver.
Regulates hormones, including, estrogen, adrenaline, and melatonin.
Detoxifies harmful chemicals and histamine a prime substance involved in inflammation.
Helps repair damaged proteins in the cells so they can function properly.
Protects the DNA in the genome (genetic code) to reduce the chances of mutation.
Creates antioxidants used in the antioxidant defense system.
DESCRIPTION OF PATHWAYS WITHIN THE METHYLATION CYCLE
The overall flow of the Methylation Cycle begins with dietary methionine (an essential amino acid) which combines with ATP (adenosine triphosphate – body energy) to form SAM (S-adenosyl methionine) – the common cosubstrate involved in methyl group transfers, transsulfuration, and aminopropylation. When SAM transfers a methyl group to a body chemical the residue from this reaction leads to the production of homocysteine.
Homocysteine can be converted in the transsulfuration pathway that requires coenzyme vitamin B6 to produce cysteine, glutathione, taurine, and sulfates. These sulfur containing substances provide important antioxidant protection and detoxification functions in the body.
Homocysteine can be converted back to methionine through the betaine (trimethyl glycine) pathway which requires zinc and magnesium. This pathway also requires dietary betaine or choline which the body can convert into betaine.
Also, homocysteine can be converted back to methionine via the remethylation pathway which requires 5-MTHF, coenzyme vitamin B2 and methylcobalamin (B12).
It is important to understand that each of the pathways described above are able to be executed only in the presence of enzymes (shown in blue boxes in the diagram) created by specific genes in your genetic code. For example, Betaine-Homocysteine S-Methyltransferase (BHMT) is the enzyme required in the betaine pathway, Cystathione Beta Synthase (CBS) is the enzyme required in the transsulfuration pathway, and Methylenetetrahydrofolate Reductase (MTHFR) and Methionine Synthase (MS) are enzymes required in the remethylation pathway.
Assuming that you have perfect genetics (no mutations, SNPs, free radical damage, insertions/deletions, etc.), the proper functioning of these pathways are still subjected to the fact that the required vitamins and minerals (vitamin B6, vitamin B2, Folate, vitamin B12, zinc, magnesium, and betaine) need to be provided by your diet or from supplements for the body to function correctly.
In addition, exposure to high levels of toxins from your environment and high levels of stress require that the nutritional needs will be even higher for the pathways to work properly. For example, exposure to high levels of toxins requires that the transsulfuration pathway be more active possibly reducing the amount of available methionine to support necessary methyl transfer reactions.
For these reasons alone the consensus of knowledgeable practitioners is that you should be eating an organic whole foods diet, taking appropriate nutritional supplements, avoiding and eliminating toxins from food, water, and air (living in a clean environment), and avoiding an unduly stressful life. All of these actions fall into the category of Epigenetics which you generally have control over!! Doing these things alone could significantly balance the functioning of your Methylation Cycle and improve your health.
Unfortunately, few people have perfect genetics which often causes the various pathways in the Methylation Cycle to become imbalanced and unable to correct the dysregulation imposed upon the body. For example, the enzyme MTHFR can have heterozygous (single chromosome) genetic variations in up to 50% of certain populations and homozygous genetic variations (both chromosomes) in 10% or more of certain populations.
Some disorders that researchers have associated with MTHFR genetic variations include:
Chronic fatigue syndrome
High blood pressure
Irritable bowel syndrome
Migraines with aura
Nitrous oxide toxicity
Unexplained neurologic disease
This extensive list is highly significant and tells us that it is very important to have genetic testing done for the genes/enzymes in the Methylation Cycle pathway. I prefer the BodySync genetic test which evaluates the key Methylation Cycle genes plus many other important genes in a single test.
B VITAMINS AND MINERALS
We are strong believers that everyone should start their nutritional program by eating a balanced, organic, whole foods diet. We have been doing this ourselves for the past 30 years. Unfortunately, only a small percentage of people follow this advice and in most cases this leads to poor nutritional status that does not adequately support the body’s needs. This is especially true with respect to obtaining the nutrients needed to support the Methylation Cycle.
Nine of our family members and associates have taken the BodySync genetic test which evaluates the condition of 45 different enzymes including CBS, MTHFR (2 variations), MTR (related to B12 and 5-MTHF as they relate to methionine synthase – MS), and MTRR (related to maintaining B12 levels needed by the MTR enzyme). In every case the results showed at least 2 and up to 4 enzymes had genetic variations. These results indicate that the nutritional requirements for folate as 5-MTHF, vitamin B12 as methylcobalamin, vitamin B6, vitamin B2, magnesium and zinc will likely be significantly greater than normal.
Given the above information, it seems essential for good health to take nutritional supplements that provide the important nutrients. Below I will discuss various formulas that I have developed and refined over many years that are useful especially for the Methylation Cycle.
Please note that Health Products Distributors, Inc. (HPDI) is the preferred supplier of nutritional supplements by the BodySync genetic testing company.
When looking at the total needs the body has for nutrients that the body does not produce, including fat soluble vitamins (A, D (some), E, K1 and K2), vitamin C, B vitamins (B1, B2, B3, B5, B6, folate, B12, biotin, choline, and inositol), minerals (Ca, Mg, Zn, Se, Cu, Mn, Cr, Mo, K, boron, and vanadium), and betaine it only seems wise to include as a top priority a Multivitamin that includes all of these in what I term therapeutic amounts (carefully selected after evaluating thousands of research studies carried out over many years.)
In this context, it is important to recognize that every enzymatic reaction in the body requires mineral cofactors in order to carry out its function. A good multivitamin provides many of these required minerals.
Additionally, the multivitamin should contain ingredient forms that research has confirmed to be the most absorbable and usable by the body. These include coenzyme B vitamins, Krebs cycle (citrate, alpha-ketoglutarate, succinate, fumarate, & malate) minerals, and amino acid chelates.
In the context of supporting the Methylation Cycle we are looking for specific forms and amounts of B vitamins that can adequately provide the body’s needs. The means that there should be coenzyme folate as 5-MTHF of at least 400 mcg, coenzyme vitamin B-12 as methylcobalamin of at least 200 mcg, Vitamin B6 (including significant amounts of pyridoxal 5′ phosphate) of at least 40 mg, and Vitamin B2 (including significant amounts of riboflavin 5′ phosphate) of at least 25 mg. In addition, magnesium (100 mg) and zinc (at least 20 mg) should be provided.
Please note that the body’s requirements for magnesium is generally accepted by nutritional experts to be higher than 400 mg daily (and as high as 1,000 mg daily). For this reason we generally recommend that a person take supplemental magnesium (such as HPDI’s MYO-MAG) at levels over 400 mg daily.
The two multivitamin formulas Health Products Distributors provides for adults that meet these requirements (and more) are the Hank & Brian’s Mighty Multi-Vite and Multi Two (in both capsule and tablet forms). Click on the bottles below for technical details.
In situations where significant genetic variations are present it may be wise to add a B COMPLEX supplement to the MULTIVITAMIN to provide even larger amounts of the needed B vitamins. HPDI provides a B-Complex-50 product that includes significant amounts of coenzyme forms and contains 50 mg of Vitamin B1, 50 mg of Vitamin B2, 100 mg of Vitamin B3, 50 mg of Vitamin B6, 500 mcg of coenzyme folate (both folinic acid and 5-MTHF), 100 mcg of B12 (both methylcobalamin and hydroxocobalmin), 50 mg of Vitamin B5 (pantothenic acid), 500 mg of Biotin, 50 mg of choline, and 50 mg of inositol. Click on the bottle below for technical details.
FOLATE AS 5-MTHF
In situations where an inadequate diet is present and genetic testing indicates an MTHFR variation (especially a homozygous variation) Health Products Distributors provides a 5-MTHF folate supplement that easily absorbs into the body and can be directly used in combination with Vitamin B12 to convert homocysteine to methionine. Click on the bottle below for technical details.
5-MTHF 1 mg in veggie cap
B-12 as METHYLCOBALAMIN
It is often the case for older patients and vegetarians that Vitamin B12 is deficient. In these cases it is wise to supplement with a significant amount of methylcobalamin to ensure that the Methylation Cycle has sufficient to effectively convert homocysteine into methionine. Health Products Distributors Vitamin B12 contains 5 mg of methylcobalamin in sublingual lozenge form that supports excellent absorption even if swallowed and absorbed by diffusion. Click on the bottle below for technical details.
Magnesium and zinc are two important minerals used in the betaine pathway of the Methylation Cycle in which homocysteine is converted back to methionine.
In the body magnesium is involved in more than 400 essential metabolic reactions and is required by the adenosine triphosphate (ATP)-synthesizing protein in mitochondria. ATP, the molecule that provides energy for almost all metabolic processes, exists primarily as a complex with magnesium (MgATP). Therefore, it also is involved in converting methionine to SAM.
Over 300 different enzymes depend on zinc for their ability to catalyze vital chemical reactions. Zinc-dependent enzymes can be found in all known classes of enzymes.
Health Products Distributors provides 100 mg magnesium/vcap in its MYO-MAG supplement which is especially important in increasing ATP in the Krebs Cycle. This product also contains vitamin B1, vitamin B2, and vitamin B6 with substantial amounts of coenzyme forms and manganese. Click on the bottle below for technical details.
MYO-MAG with 100 mg magnesium per serving and key B vitamins.
Health Products Distributors provides 25 mg zinc/serving in its Double Zinc Plussupplement. This formula provides zinc in the picolinate and citrate forms as well as 3 mg of P5P (coenzyme B6). Click on the bottle below for technical details.
Double Zinc Plus supplement with P5P and 25 mg zinc
The Methylation Cycle is recognized as one of the most important metabolic pathways in the human body. When not properly supported by key B vitamins and minerals, the Methylation Cycle can become severely imbalanced which can lead to a very wide range of poor health conditions. Furthermore, genetic variations in the genes that produce important enzymes allowing the Methylation Cycle to function correctly lead to even further imbalances and greater possibility for conditions of poor health.
In this article, I have provided insight into how the Methylation Cycle works and how it can be significantly supported by lifestyle changes regarding diet and environment (Epigenetics) and by specific B vitamins and mineral supplements that I have developed over many years. In addition, we have shown that knowledge gained from genetic testing can further provide a critical understanding of your specific needs so that your health can be optimized.