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HYDROGEN SUPPLEMENTS – MAKE HYDROGEN DRINKS

Fred Liers PhD hydrogen supplements drinks H2I love hydrogen supplements. So should you. Since starting my morning—and often afternoon—routine of making hydrogen drinks in the kitchen, I have come to appreciate the surge of energy lasting many hours, as well as a host of other benefits.

Most of all, I am amazed how easy hydrogen supplements are to use considering how much they do for you, and how well they complement the supplements I already take—seeming to make them all more effective.

I typically use one or two effervescing Active H2 Ultra tablets or Vital Reaction tablets in 8–16 ounces of water. Then I like to open one Megahydrate capsule directly in the effervescing water. I wait about 90 seconds to let the tablets stop “fizzing” and then I drink immediately. Allowing the drink to sit for a few minutes is okay, but the sooner you drink it, the higher the concentration of hydrogen.

HYDROGEN SUPPLEMENTS ARE EFFECTIVE

Hydrogen supplements are among the newer, cutting-edge nutritional formulas available to support optimal health. More than 500 scientific articles now support the therapeutic potential hydrogen for essentially every organ system and in 150 human disease models, according to the non-profit Molecular Hydrogen Foundation. In fact, hydrogen is rapidly incorporated into medicine, sports medicine, peak performance, elite fitness, and more.

Hydrogen is an antioxidant. It is also an extremely small molecule that can penetrate even the tiniest cellular compartments. This helps explain how hydrogen works to offer free-radical defense throughout the entire body.

The medical and scientific literature is clear. Hydrogen’s modes of action:

  • H2 reduces oxidative stress as a selective antioxidant and by maintaining homeostatic levels of glutathione, superoxide dismutase, catalase, etc.
  • H2, like other gaseous signaling molecules (i.e. NO, CO, H2S), appears to have cell signal-modulating activity affording it with anti-inflammatory, anti-obesity, and anti-allergy benefits.

We include hydrogen supplements in HPDI’s system of Foundational Supplements. In fact, hydrogen formulas as just one of six foundational supplements. We consider hydrogen a “secondary” foundational supplement usually to be added to a supplement regimen after the four primary ones: multivitamins, antioxidant & vitamin C formulas, essential fatty acids, and superfoods high in dietary nucleic acids (i.e., Rejuvenate! superfoods).

HYDROGEN MEDICINE

The scientific literature discusses the use of molecular hydrogen for many clinical applications, including:

• Metabolic Syndrome including diabetes, hyperlipidemia, arteriosclerosis, hypertension, and obesity

• Ischemia/reperfusion injuries, including cerebral and myocardial infarctions, organ transplants, post-cardiac arrest

• Neuroprotection, including applications for dementia, Parkinson’s disease, depression, and anesthesia

• Inflammation, including applications for polymicrobial sepsis, rheumatoid arthritis, wound healing, and bowel diseases

• Mitochondrial diseases

• Hemodialysis and ventilation

• Aging, including cognitive decline

• Exercise, including applications for fatigue, lactic acid, recovery, and oxidative stress related to heavy exercise

Side effects of cancer therapies, including radiotherapy and chemotherapy

• Many other benefits

(Source: Molecular Hydrogen Foundation)

HOW HYDROGEN WORKS

According to the Molecular Hydrogen Foundation, there are three ways molecular hydrogen exerts positive health effects.

1. Molecular hydrogen easily diffuses into subcellular compartments where it scavenges cytotoxic oxygen radicals, thereby protecting DNA, RNA, and proteins against oxidative stress.

2. Molecular hydrogen triggers activation or upregulation of additional antioxidant enzymes (e.g., glutathione, superoxide dismutase, catalase, and others) and/or cytoprotective proteins of the body.

3. Molecular hydrogen may be a novel signaling molecule that alters cell signaling, cell metabolism, and gene expression. This may explain its apparent anti-inflammatory, anti-allergic, and anti-apoptotic (or anti-cell death) effects.

hydrogen supplements Active H2 Ultra tablets

Active H2 Ultra hydrogen supplement (60 tablets).

HYDROGEN IS SAFE

Molecular hydrogen exhibits great safety, and it is regarded as safe for use in the body. It is shown no toxicity even in high concentrations.

Safety standards have long been established for high concentrations of hydrogen for inhalation largely because of the history of high-pressure H2 gas used in deep-water diving gas mixtures for preventing decompression sickness.

Notably, H2 gas combusts only at temperatures higher than 527 °C, and it explodes by chain reaction with oxygen (O2) only in the range of H2 concentration (4–75%, vol/vol).

Molecular hydrogen is used for medical applications safely by several ingestion methods including inhalation of 1–4% hydrogen gas, for example, which exhibits great effectiveness. All these factors mean that hydrogen is safe, easy-to-use, and effective for therapeutic purposes.

vital reaction hydrogen supplements

Vital Reaction hydrogen supplement (60 tablets).

DRINKING HYDROGEN-INFUSED WATER

According to the Molecular Hydrogen Foundation, drinking H2-rich water is the easiest, and often the most effective, method for obtaining hydrogen.

Drinking hydrogen-infused water is easy to do, and convenient as you can drink it at home or while traveling. Effective hydrogen products HPDI carries include Vital Reaction tablets, Active H2 tablets, and Megahydrate capsules.

As noted, I make one or two hydrogen drinks daily, first in the morning and then often again in the afternoon. I drink them on an empty stomach. I enjoy a significant energy boost, which helps power me through my day. I gain other benefits, including improved athletic performance, noticeably faster recovery from exercise, and an overall greater sense of well-being.

I highly recommend you try hydrogen supplements for yourself, and then consider them for your clients or patients. Our experience is that most people are pleasantly surprised by the results they get from hydrogen supplements, especially if they have a need for exceptional free-radical defense, or stand to benefit from the proven effects hydrogen uniquely provides (see list above).

Once you try hydrogen, you will want to continue taking it because the benefits are so significant. Let the power of hydrogen starting working for you on a daily basis!

hydrogen supplements Megahydrate

Dr. G. Patrick Flanagan’s Megahydrate (60 capsules).

HYDROGEN RESOURCES

Hydrogen Articles

Hydrogen for Optimal Health

Wonders of Molecular Hydrogen

Molecular Hydrogen (H2) at the Forefront of Health Research

The Science Behind MegaHydrate by Hank Liers, PhD

Hydrogen Products

Active H2 Ultra tablets

Vital Reaction tablets

Megahydrate capsules

Other Hydrogen Resources

Molecular Hydrogen Foundation

hydrogen supplements megahydrate active H2

Hydrogen supplements like Megahydrate and Active H2 are foundational in the HPDI supplement system.

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THE SCIENCE BEHIND MEGAHYDRATE

Dr Hank Liers PhD science behind MegahydrateI recently became aware of the health benefits of molecular hydrogen/hydrogen. We subsequently have written numerous blog articles on the subject (see resources section below), and elected to carry and endorse several products, including Active H2 and Megahydrate™. As a scientist, I am particularly impressed with the science behind Megahydrate, as well as the in-depth research studies carried out showing how it was developed and its health benefits.

For economic reasons, it is rare for a particular nutritional supplement to have in-depth scientific studies and clinical trials supporting its use. In this article, I will present some of the most relevant scientific information regarding Megahydrate.

 science behind Megahydrate

In a previous article “Water, Hydration, and Crystal Energy®” I discuss in-depth the science behind Dr. Patrick Flanagan’s use of nanometer-sized silica colloids to enable greater hydration of the body, enhanced absorption of nutritional ingredients into cells, and improved cellular detoxification.

In this article I will discuss the science and benefits of embedding hydrogen anions (hydride or H-) into these same nanometer-sized silica colloids that not only have all of the hydration benefits of Crystal Energy® but also exhibit potent antioxidant characteristics. The resulting substance is named by Dr. Flanagan “silica hydride” and his product that incorporates it is known as Megahydrate™ (originally Microhydrin™). The science behind the development of Megahydrate is provided below.

DEVELOPMENT OF AND SCIENCE BEHIND MEGAHYDRATE

The details of the materials development are provided in an article by Cory J. Stephenson and G. Patrick Flanagan titled “Synthesis of Novel Anionic Hydride Organosiloxane Presenting Biochemical Properties” published in the International Journal of Hydrogen Energy 28 (2003) 1243–1250.

Abstract
Synthesis of an anionic hydride from monomeric silsesquioxanes is described. The novel compound, dubbed “silica hydride” is the result of several newly synthesized compounds from an interstitially embedded hydride family. It is a hydride-based compound with H− ions interstitially embedded in a matrix of caged silica. This compound exhibits profoundly different characteristics than other known compounds in the hydride family. Unlike saline hydrides, the silica hydride demonstrates no overt or violent reaction with water or air. However, it is capable of generating aqueous reductive potential readings (ORP) of −750 mV for extended time periods. In vitro biological testing demonstrated no cytotoxicity induced by the compound while demonstrating efficacy as an antioxidant. In vivo studies of the compound have shown that it has a significant ability to reduce lactic acid build up in muscles by one-half after exercise. The synthesis of the silica hydride resulted in an approximately 16.8% w/w hydride content, as determined by density changes, proton NMR spectroscopy and ion beam analyses. Scanning and tunneling electron microscopy, Rutherford backscattering spectroscopy (RBS), forward recoil (FReS) ion beam analyses, in addition to Fourier transform infrared spectroscopy, reduction potential and 29Si CP-MAS solid state NMR were additionally used to characterize the compound.

Below relevant details from the article are provided to give insight into the science of the Megahydrate invention.

Introduction: The idea behind synthesis of the novel compound described in this article is based on the use of a monomer nanocomposite as a carrier in a bioencapsulated compound. The synthesis uses a silica and hydroxyl group terminated silsesquioxane monomer, trademarked Silica Microclusters®, that is interstitially imbedded with hydride anions as conceptually depicted in Fig. 1. The results from the characterization of this compound provide evidence to this claim, including DRIFTS FTIR and NMR data.

Figure 1 science behind Megahydrate

Figure 1. Conceptual diagram of Flanagan Microcluster structure. The tetrahedral coordination forms a three-dimensional framework by a series of Si–O–Si bonds, creating a silica cage.

With the immense potential for bioencapsulates and nanocomposite technologies, it would be very beneficial to create a hydride out of a compound that would involve the combinational reducing effects of a saline hydride compound and the beneficial attributes of the host compound, all without the reactivity of the saline hydrides. Synthesizing a biologically friendly hydride would have immense potential as an antioxidant and radical scavenger as discussed later in this paper.

It was discovered in the present work that if a hydride ionic plasma was placed under pressure, virtually any compound it came in contact with could then absorb its emitted ions. Since the 1920s, creating a hydride gas has been standard practice. One effective way is to add a current to a tungsten (W) lament in a hydrogen gas atmosphere. The lament separates hydrogen gas into a monovalent hydrogen gas while the photoelectric effect on the W lament donates electrons to the H gases forming a H− plasma. Langmuir, in 1927, while using the W lament hydride ion synthesis technique, discovered that moist air prevents hydride ions from recombining back into hydrogen gas.

Figure 2 science behind Megahydrate

Figure 2. The Concept of Silica Hydride. Conceptually the hydride embedded organosiliceous silsesquioxane, or silica hydride, is a monomeric silica-based cage with interstitially placed hydride anions. As a bioencapsulated compound, the silica acts as a colloidal carrier for the hydrogen anions in solution.

Details of Invention: The idea for this synthesis experiment was to then create a hydride plasma under a water vapor atmosphere and expose the plasma to an organosilicate compound, circumventing the problem of the hydrogen not having the catalysis or the electron availability to combine with the host substrate. Interestingly, Langmuir noted that the monoatomic ions produced by this process would become embedded in the glass walls of the tubing of his apparatus and that same tubing could later be induced to release the ions. The glass tubing used by Langmuir was a borosilicate glass, an amorphous siliceous compound. In the present study, an apparatus similar to what Langmuir used was constructed to create a plasma of H− ions. The H− atmosphere was applied to the pure Microcluster Silica powder under pressure and in the presence of a water vapor, creating a novel silsesquioxane bioencapsulated-hydride compound, dubbed: silica hydride.

Materials and methods: A 1.0 L sealed glass vessel was fabricated containing the items as depicted in Fig. 3. Two 5 cm × 0:6 cm diameter W rods were positioned transversely 2 mm apart in the top of the reaction vessel with two insulated leads connecting the W rods to a 20 A constant-current transformer (Lambda-EMI 102A-1KV, Neptune, NJ). Ten grams of MicroclusterJ silica was placed on the stage inside the vessel with 100 ml of distilled and deionized water added to the basin. A steady stream of hydrogen gas was bubbled through an aquarium stone in water and introduced to the reaction vessel, purging all of the air from the vessel and increasing pressure to 172 kPa at which time the vessel was sealed. A 500 V potential was applied to the W rods. At voltages ranging from 350 to 750 V, a constant arc could be maintained between the electrodes without melting. The potential was applied for 30 seconds at which time the current was shut off  and additional hydrogen was pumped into the vessel creating a captive plasma. The sample was allowed to sit in the plasma for 30 minutes at which time the silica sample was removed and weighed with an analytical balance.

Figure 3 science behind Megahydrate

Figure 3. Synthesis Apparatus. The representation of the apparatus used to synthesize the compound. A hydrogen gas generator (A) provides H2 gas that is sparged through a fllter stone in deionized, distilled water (B), where the hydrogen gas and water vapor are transported into a reaction vessel (C) with the substrate. Two tungsten electrodes (D) create a captive plasma H− gas via a constant current high-voltage power supply (E). Vessel evacuation, purge and sealing were performed using a mechanical valve (F). The resultant actions interstitially embed the hydride anions created by the plasma into the substrate.

Results: Determination of the mass of the anionic hydride organosiloxane sample showed an increase from 10.0 to 11.70 g upon exposure to the hydride plasma under pressure. The sample was allowed to sit at room temperature with desiccant in a glass vial for 3 weeks at open atmosphere at which time the proceeding analyses were performed.

An ion beam analysis was performed with the silica powder being pressed into a pellet (1.66 g/cm3) compared to a control standard. Rutherford backscattering spectroscopy (RBS) was analyzed with 2 MeV He beam, while 3 MeV He beam was used in a forward-recoil spectrometry (FReS) measurement. RBS suggests that the powder contains elements O and Si. Including H- content by FReS, the powder relative percentage makeup becomes H (78.1%), O (15.6%) and Si (6.2%). Trace amounts of boron (B) and W (<25 ppm) were also observed. Original values from samples of non-reacted Microcluster silica comparatively illustrate an elemental makeup of H (22.4%), O (55.6%) and Si (21.9%). A 1H-NMR characterization was performed and showed a 16.8% hydride content.

Scanning electron microscopy analysis with a 40 KeV-JEOL 840II microscope illustrated small, ∼ 2 microns, spheres consisting of numerous smaller spheres. A 300 KeV-CM30 transmission electron microscope allowed the resolution to image very small, spherical compounds that were measured to be about 50 Angstroms. An energy dispersive X-ray spectrometer qualified an elemental analysis of the compound to contain Si and O.

The ORP and pH were recorded for 250 ml distilled and deionized water in a Pyrex beaker. 10.0 g/ml of the siliceous hydride was added to the beaker and allowed to stir for 15 min at which time addition ORP and pH readings were taken. The initial ORP and pH of the water averaged 341.33±2.5 mV and pH 7.12±0.06, respectively. The readings after 15 min were −436.21 ± 2.1 mV for the ORP and 9.13 ± 0.09 for the pH measurements.

The hydrogen pressure unbiased reducing potential, rH, was calculated. The use of rH gives a hydrogen proton-unbiased look at the absolute reducing potential of a compound, eliminating the effects of pH in the ORP measurement. The measured rH for the compound was 11.02 ± 0.04 indicating a highly reduced environment.

Discussion: The synthesis process appears to cluster the organosilicate subunits into hydrogen-bonded aggregates that further group into approximately 2 micron clusters as shown in Fig. 4A. Dissolution in water decreases the cluster size from 2 microns to the smaller subunits of about 500 nm, then into individual cages of about 50 A (Fig. 4B).

 Figure 4 science behind Megahydrate

 

This new organosilicate silsesquioxane compound, commonly named silica hydride, has been the subject of numerous tests involving reduction potential (ORP) and pH as well as being analyzed as an effective antioxidant. Adding a few mg to water will drop an ORP reading by −750 mV. A recent publication of a clinical study has illustrated the capability of this compound to significantly reduce lactic acid after exercise by 50%. Viability and cytotoxicity probes show that the silica hydride does not cause any decrease in intracellular esterase activity or otherwise induce a toxic cytoplasmic environment. There are a plethora of uses of a hydride-based compound such as silica hydride since it does not impose a direct negative effect to cellular viability and cytoplasmic health. Particular uses include nutritional supplementation as an antioxidant. The incredible reduction potential of silica hydride adds to the possible uses of this type of compound.

The compound does not react violently or visibly with H2O. However, it will reduce the ORP reading to −750 mV for a period of at least several weeks. Most antioxidant compounds are relatively large chemical species. Examples of this are vitamins A, K, C, ubiquinone and n-acetyl-l-cysteine. It is hypothesized that steric hindrances may affect the efficacy of antioxidants. The small size and reducing capacity of silica hydride, the silsesquioxane hydride compound, may lead to future development as an antioxidant.

Conclusion: The novel siliceous compound acts as a colloidal carrier for the very small hydride anions that are released in an aqueous solution. This nanosized colloidal bioencapsulated compound could be an incredibly effective radical scavenger and aid in the reduction of oxidative stress due to its minimal size and high reduction potential.

This novel compound presented in this paper has demonstrated promising in vitro and in vivo biochemical significance with uses including reducing agents, antioxidants and nutritional supplementation. The synthesis is simple and effcient with consistent results of about 17% w/w hydride content with respect to the starting compound. Biologically friendly compounds that incorporate health-beneficial minerals, such as silica, with the scavenging and reducing capabilities of a hydride provide for numerous possibilities of uses.

THE PATENT AND SCIENCE BEHIND MEGAHYDRATE

After inventing Megahydrate (formerly Microhydrin), Dr. Flanagan (and his associates) conducted studies on its efficacy for a range of benefits for human health. The material was then patented in 2003. Key elements of the patent are provided below and a link to the entire content is provided if you wish to read further details.

Methods of using silica hydride mineral
US 20030190374 A1

ABSTRACT

The exact health benefits of silica hydride minerals, traditionally found in glacial streams, have long been the subject of speculation. Geochemical analysis indicates that such colloidal silica hydrides in water possess a silica-water interface that provides a hydrated surface and adsorbs other elements or compounds such as potassium, iron, magnesium, lithium, calcium, and hydrogen. Dietary supplements with similar properties have been formulated. When the silica-water interface of such compounds is saturated with reduced hydrogen, the compounds take on an overall negative charge and act as a reducing agent or antioxidant when in solution. When consumed, hydride ions introduced into the body by the silica hydride supplement donate electrons to body fluids. With proper dosages, the benefits of consuming silica hydride include reduction of lactic acid build-up, increasing cellular hydration, reduction of free radical damage, enhancement of mitochondrial bioenergetic capacity, increasing antioxidant activity, and enhancing the properties of drinking water.

DESCRIPTION

TECHNICAL FIELD OF THE INVENTION
This invention relates to methods of using silica hydride minerals. More particularly, this invention relates to methods of using silica hydride minerals that have beneficial effects on lactic acid buildup during exercise, cellular hydration, free radical damage, mitochondrial bioenergetic capacity, antioxidant activity, and the suitability of water for conversion into optimal cellular body fluids.

BACKGROUND OF THE INVENTION
Amorphous silicate minerals, many of which are in the nanoparticle size range, were once common in natural water sources and abundant in glacial stream waters. Not only do the silica mineral particles bond water and other elements for transport; they also can be adsorbed with reduced hydrogen, which releases electrons, providing antioxidant or reducing potential to surrounding fluids.

In one region of West Pakistan the people are known to enjoy excellent health and amazing longevity. A team of cardiologists found the heart health of the people to be exceptionally good and evidence of the people’s delayed aging. The cardiologists attributed the good health and longevity in significant part to the abundance of colloidal silicate minerals in the glacial streams the people used for irrigation of food crops and drinking water.

Geochemical analysis indicates that colloidal silicate minerals display a variety of properties, including the formation of structured water around the silica-water interface, which provides a hydrated surface that adsorbs elements or compounds such as potassium, iron, magnesium, lithium, calcium, and hydrogen. FIG. 5 illustrates an example of the silica-water interface and the concentric structured water arrangement about the interface with the adsorption of elements within the layers.

Figure 5 science behind Megahydrate

Figure 5. An enlarged view of a hypothetical silica hydride particle showing the silica-water interface and other adsorbed elements.

 

From silicate analogs, it is possible to formulate dietary supplements that are similar to the colloidal silicate minerals found in glacial waters and retain the geo-physical properties inherent to these minerals. An example of such synthesized silicate analogs is a silica hydride formula sold under the trademark Microhydrin®. Substances possessing the characteristics and functions described in this application, such as Microhydrin®, have assumed many names.

For example, in addition to being called silica hydrides, such substances are known as amorphous silicate minerals, silicate particles, silicates, colloidal silicate minerals, silicate analogs, synthesized silicate analogs, functional silicate nanocolloids, dielectric interstitial hydrides, dietary silicate supplements, or dietary silicate antioxidants. Considering the many labels afforded this class of substances, the characteristics and functions of supplements must necessarily determine whether a particular supplement falls within the class.

Referring again to FIG. 5, the particle’s silica-water interface can be saturated with reduced hydrogen, or hydride (H-) ions, and takes on an overall negative charge. In such cases, the particle then acts as a reducing agent or antioxidant when in solution (standard reduction-oxidation potential, −550 mV). It is capable of providing literally trillions of hydride ions able to donate electrons into body fluids.

Electrons, which Albert Szent-Gyorgyi called the “fuel of life,” are abundantly available in inorganically grown raw vegetables, fruits, and grains, but are deficient in our modem diet of over-cooked, acidic, or highly oxidized foods, beverages, and drinking water. In silica hydride minerals, the structured water around the silica-water interface stabilizes electron transfer. Such specific silicate interactions could play a substantial role in many biological processes by enhancing salvation properties and ion and water transport and by providing free radical antioxidant protection.

Such electron deficiencies resulting from inadequate diet have a derogatory impact on specific biological processes such as lactic acid build-up, cellular hydration, damage from free radicals, mitochondrial bioenergetic capacity, antioxidant activity, and suitability of drinking water for conversion into optional cellular body fluids. Therefore, a need exists for a method of counter balancing these electron deficiencies and, as a result, enhancing each of these biological phenomena.

SUMMARY OF THE INVENTION
The present invention identifies certain beneficial health effects of silica hydride minerals and the effective doses necessary to achieve desired results. With proper dosages, the benefits of using silica hydride minerals as a dietary supplement include: reduction of lactic acid buildup during and after exercise, increasing cellular hydration, reduction of free radical damage, enhancement of mitochondrial bioenergetic capacity, increasing antioxidant activity, and enhancing the suitability of water for conversion into optimal cellular body fluids.

PATENT CLAIMS

1. A method of reducing lactic acid buildup during and after exercise comprising ingesting an effective dose of silica hydride mineral.
2. A method of increasing cellular hydration comprising ingesting an effective dose of silica hydride mineral.
3. A method of reducing free radical damage comprising ingesting an effective dose of silica hydride mineral.
4. A method of enhancing mitochondrial bioenergetic capacity comprising ingesting an effective dose of silica hydride mineral.
5. A method of increasing antioxidant activity comprising ingesting an effective dose of silica hydride mineral.
6. A method of making water more suitable for conversion into optimal extracellular and intracellular body fluids comprising ingesting water mixed with an effective dose of silica hydride mineral.
7. A method of improving the characteristics of body fluids, such as saliva pH, saliva rH2, blood resistivity, urine resistivity, urine pH, urine rH2, and saliva resistivity comprising ingesting an effective dose of silica hydride mineral.

SOME BENEFITS OF MEGAHYDRATE INDICATED BY SCIENTIFIC STUDIES

  • Contains Hydrating Silica Microclusters®
  • Extremely Powerful Antioxidant
  • Recycles other Key Antioxidants in the Body
  • Extremely Safe and Non-Toxic
  • Easily Accesses All Cells in the body
  • Increases Cellular ATP Production by up to a factor of 4 times
  • Readily Converts NAD+ to NADH
  • Reduces Pain & Inflammation
  • Exhibits Powerful Anti-Aging Properties
  • Protects and Repairs DNA
  • Neutralizes Harmful Toxins like Fluoride, Chlorine, etc.
  • Protects Against and Repairs Radiation Damage
  • Increases Absorption of other Supplements
  • Lowers surface tension of water you drink leading to improved detoxification
  • Removes Heavy Metals from the Body
  • Balances pH or Alkalizes the body
  • Increases Zeta Potential of Human Cells
  • Increases Cellular Hydration
  • Very Stable – Works Over Extensive Time Periods
  • Reduces Lactic Acid Buildup During Intense Workouts
  • Protects Telomeres by allowing cells to exceed the Hayflick limit by 4-5 times

ADDITIONAL RESOURCES

Molecular Hydrogen Foundation (MHF)

Hydrogen for Optimal Health
by Fred Liers, PhD (from the HPDI blog)

Wonders of Molecular Hydrogen
by Fred Liers, PhD (from the HPDI blog)

Molecular Hydrogen (H2) at the Forefront of Health Research
by Hank Liers, PhD (from the HPDI blog)

ACTIVE H2 (tablet)

H2BEV (bottle)

MegaHydrate™ (capsule)

Contact Us:

You can reach HPDI by calling 1-800-228-4265, email support(at)IntegratedHealth.com, or visit the retail website: www.IntegratedHealth.com

Health care professionals and retailers can apply for wholesale account, which includes access to the HPDI reseller website: www.HealthProductsDistributors.com