Magna Hydrogen the Ultimate Anti-Oxidizing/Anti-Oxidant
Yes those two terms have separate definitions in chemistry. Magna Hydrogen contains ingredients to cover both. Which makes it a very unique product in the marketplace. Frankly, no one else comes close.


Anti-Oxidizing relates to Charge: A Science lesson
“Oxidized” definition is that electrons are Missing and therefore have a Positive charge. Steel Rust for example is Oxidized and looks lumpy reddish brown, whereas fresh steel is blueish grey and smooth. So we extrapolate this example to the cells in our body; sometimes referred to as Oxidative Stress. So what the Negatively charged Hydrogen is doing is turning steel back to smooth bluish grey. Here’s another example commonplace in the media for the past couple of years: Spike Proteins inflammation related to a flu aka SARS. Spike Proteins have a Positive Charge and are irritating to sinus mucous membranes and lung tissue. By Reducing the positive charge with negative Electrons the Spike Protein can no longer function. Remember this is only a Science lesson and does in no way serve as medical advice. If you don’t believe me, go ask your doctor if he still remembers his chemistry classes back in college.
Magnesium Releases Electrons
When Magnesium reacts in an acidic environment eg. L-Ascorbic Acid aka Vitamin C, it releases electrons with a negative charge that are Anti-Oxidizing. And Hydrogen is generated in the process which is carrying that negative charge; the chemical symbol is H-. H- means that there is an additional available electron.
Vitamin C is an Antioxidant
Just about everyone knows that Vitamin C is an antioxidant along with a myriad of other supplements and fruits. And Vitamin C is important for for skin, bones, ligaments, tendons, teeth, eyes, blood vessels and to make anti-bodies and white blood cells.
The Magnesium becomes an Organometallic
Why is this important? Because the Magnesium converted into an Organic form becomes Magnesium Ascorbate and is much more easily assimilated in the body. Magnesium plays a vital role in a lot of daily body functions. Whether it is the nerves, muscles, or cells, Magnesium works hard by regulating their functions in the body.

ATP Mitochondria and Energy
Electrons from H- are a source of energy to generate the body’s staggering amounts of ATP cellular energy. ATP is created in the Mitochondria.
“Energy decline: As we age, there is a decrease in our bodies’ ability to generate cellular energy. Oxidative damage may be a primary factor. Many scientists now accept the theory of aging first proposed by noted scientist Denham Harman, M.D., Ph.D., who argued that “aging changes are induced by free radical reactions, largely initiated by the mitochondria … the rate of damage to the mitochondria determines our life span.”
Why is this? While oxygen is necessary for human life, the very act of breathing generates free radicals. Our mitochondria, tiny energy production plants, are the chief source of oxidants produced in our bodies. It is believed that these oxidants damage the mitochondria in which they are produced, including the inner mitochondrial membrane, which is the site of ATP production. This would seriously impair the ability of mitochondria to meet cellular energy demands. The result: signs of normal aging such as impaired memory, hearing, vision and stamina .
DNA Damage: Oxidants also can damage the cell’s DNA. Hydroxyl radicals cause DNA strands to break; if breaks occur in both strands of DNA, the cell cannot repair the damage and will die. Normally, the body has mechanisms to correct or remove damaged cells. However, as we age and cellular energy production declines, the ability to correct these errors is significantly reduced. Left unrepaired, DNA errors may be passed on when cells divide. Over time, these errors can silently accumulate, leading to cellular changes that go unnoticed until body system imbalances become evident in the form of disease”
ATP, adenosine triphosphate, is composed of three phosphates. The breaking of the bond between the second and third phosphates releases the energy to power virtually all cellular processes. Amazingly, we all generate enough metabolic energy to produce our own body weight in ATP every day just to function! Every second, each of our approximately fifty trillion cells consumes and regenerates ten million molecules of ATP .
This massive energy generation (ATP production) is the fundamental core function of every human cell. Without it, basic activities such as cellular repair, protein, enzyme, hormone and neurotransmitter synthesis would not occur. DNA repair and cell reproduction would cease. Our ability to sense the world around us would cease. The negative implication of poor energy generation for our health and vitality levels is significant. Many factors such as aging, poor nutrition and pollution can impede this critical energy.
Negatively charged electrons from hydrogen (H-) are the source of the energy needed to generate this staggering amount of ATP. This energy production takes place in the mitochondria of the cells at the final stage of the Krebs Cycle, called the electron transport chain. Typically, the hydrogen comes from the breakdown of carbohydrates from food, which yields hydrogen as well as carbon and oxygen.”
Dr. G. Patrick Flanagan
Aging and Anti-oxidizing/Antioxidant Defense
“Energy decline: As we age, there is a decrease in our bodies’ ability to generate cellular energy. Oxidative damage may be a primary factor. Many scientists now accept the theory of aging first proposed by noted scientist Denham Harman, M.D., Ph.D., who argued that “aging changes are induced by free radical reactions, largely initiated by the mitochondria … the rate of damage to the mitochondria determines our life span.”
Why is this? While oxygen is necessary for human life, the very act of breathing generates free radicals. Our mitochondria, tiny energy production plants, are the chief source of oxidants produced in our bodies. It is believed that these oxidants damage the mitochondria in which they are produced, including the inner mitochondrial membrane, which is the site of ATP production. This would seriously impair the ability of mitochondria to meet cellular energy demands. The result: signs of normal aging such as impaired memory, hearing, vision and stamina .
DNA Damage: Oxidants also can damage the cell’s DNA. Hydroxyl radicals cause DNA strands to break; if breaks occur in both strands of DNA, the cell cannot repair the damage and will die. Normally, the body has mechanisms to correct or remove damaged cells. However, as we age and cellular energy production declines, the ability to correct these errors is significantly reduced. Left un-repaired, DNA errors may be passed on when cells divide. Over time, these errors can silently accumulate, leading to cellular changes that go unnoticed until body system imbalances become evident in the form of disease.
Negative Electrons on Hydrogen H-, compared to other antioxidants, due to the fact that when other antioxidants donate electrons to quench free radicals they in turn become reactive free radicals. This process continues, resulting in an inefficient and energy-consuming free radical cascade” Dr. G. Patrick Flanagan
New Study: Magnesium Destroys Cancer Cells
“In a groundbreaking new study, Swiss researchers discovered that your immune system can only target and destroy cancer cells in the presence of a critical mineral.
This breakthrough report highlights what I’ve been telling my patients for years… Your good health depends on the nutrients you put in your body.
And in this case, the miracle nutrient is Magnesium.
Earlier research had already identified Magnesium deficiency as a significant health problem – especially when it comes to cancer.
In the new study, published in the journal Biochimica et Biophysica Acta, researchers determined that Magnesium deficiency increases metastasis – the spread of cancer – in mice.
Additional research found that deficiency is a risk factor for certain kinds of cancers in humans, including breast, colon, and pancreatic cancers.
But what the Swiss researchers discovered suggests that Magnesium deficiency could be life-threatening.
In the study, scientists at the University of Basel observed that Magnesium activates a special protein – LFA-1 – on the surface of “killer” T cells. This allows the immune cell to lock on to and target cancer cells.
Results like this don’t surprise me. You see, your body needs magnesium for more than 600 biochemical reactions in the body.
And when you don’t have enough, your body stops functioning efficiently. Your nervous system slows down. Inflammation runs rampant. Your heart beats erratically. Your immune system becomes impaired.
In fact, people with a magnesium deficiency have a higher risk of dying from ANY cause.
Sadly, today nearly 80% of Americans are deficient in this “miracle mineral.”
And you don’t need a cancer diagnosis to experience symptoms. These include loss of appetite, nausea and vomiting, fatigue and insomnia, weakness, muscle spasms, muscle and bone pain, cramps, and an abnormal heartbeat.
In extreme cases, seizures and changes in personality can happen.
But on the flip side, increasing your Magnesium level has incredible benefits. In addition to cancer protection, magnesium’s health benefits include:
Better blood sugar levels
Protection against bone loss and breaks
Less depression and anxiety
Lower blood pressure
Reduced risk of heart disease and stroke
Less inflammation
Fewer migraines
Better sleep quality
Relief from constipation
3 Easy Ways To Increase Magnesium Now
I tell my patients to get about 1,000 mg of Magnesium a day. That’s much higher than the recommended daily allowance (RDA) of 320 and 420 mg.
The good news is that it’s easy to boost your Magnesium levels and get them back where nature intended. The most absorbable forms are Magnesium Citrate, glycinate taurate, or aspartate. Take it with vitamin B6 to increase the amount of Magnesium that accumulates in your cells. I also recommend adding vitamins D3 and K2, which synergize well with one another.” Al Sears, MD March 9, 2022