Molecular Hydrogen has now emerged as a ‘surprising’ molecule with broad therapeutic potential. Over 400 scientific studies indicate there may be a beneficial effect for over 150 conditions including: fatigue, cognitive impairment, pain, inflammation, metabolic syndrome, obesity and cardiovascular function.
and is one of only four elements present in every living organism (along with carbon, oxygen and nitrogen). Its therapeutic uses stem from its actions as an anti-inflammatory, antioxidant mediator, and cell signalling molecule.
A hydrogen atom usually has one proton, and one electron, but most have no neutrons. Naturally occurring atomic hydrogen is rare due to its tendency to bond with most other elements.
Elements bond together by sharing electrons. A hydrogen molecule consists of two bonded hydrogen atoms.
Hydrogen in the body is usually bound to carbon and nitrogen. It’s part of almost every molecule in your body: DNA, proteins, sugars, and fats.
The hydrogen bond – which forms between atoms that “share” a hydrogen atom, is one of the most important interactions that makes biological molecules behave as they do.
Quite simply, a free radical (often referred to as a radical) is an atom or molecule with an unpaired electron. Free radicals can be positively charged, negatively charged, or neutral.
There are two main types of radicals exist in the body: Reactive Oxygen Species (ROS) and Reactive Nitrogen Species (RNS).
An antioxidant is a molecule with the ability to donate an electron and thus neutralize free radicals.
Any molecules with a spare electron is inherently unstable, and will steal an electron from another molecule in order to increase their stability. This causes the molecule that has just lost an electron to become unstable. So another free radical is created.
If this happens to enough molecules in the cell it results in damage to the cell. If it happens to enough cells, the result is tissue damage.
Main oxygen-based radicals are:
- Hydroxyl radical
- Hydrogen Peroxide
Major nitrogen containing radicals are:
- Nitric Oxide
Contrary to what supplement vendors tell us, free radicals are not always ‘bad’.
Unlike what we hear in the advertising world, some of them are actually essential. They play a vital role in the body’s immune system by helping to eliminate viruses, bacteria, and abnormal cells. They are also important for gene expression (whether a gene is switched off or on) and cell signaling (how cells talk to each other). We therefore need to be cautious with many antioxidant supplements because they may inhibit essential necessary actions of ‘good’ free radicals.
In a healthy body there is a balance existing between the generation of radicals and the antioxidant enzymes that neutralise them.
Oxidative stress occurs as a result of an imbalance between the production of ROS/RNS and the body’s ability to detoxify the reactive intermediates or to repair the resulting damage. Cells are protected against oxidative stress by an interacting network of antioxidant enzymes. These are:
- Superoxide Dismutase (SOD) (superoxide radical)
- Catalase (CAT) (hydrogen peroxide) and
- Glutathione Peroxidase (peroxide)
Molecular Hydrogen is an excellent and a unique antioxidant. It is specific for the hydroxyl radical and increases the body’s natural antioxidant molecules. Also, due to its small size, it easily crosses cell membranes and has access to parts of the cell that other antioxidants are too large to reach.
Molecular hydrogen has been shown to increase the levels of SOD, Catalase and Glutathione peroxidise. It appears to be increasing the body’s innate antioxidant mechanisms.
Believe it or not, inflammation is essential to our body’s immune system and it is how our body naturally responds to any threatening stimuli. It naturally follows an increased blood flow to an area of infection or injury, and in turn, increases the supply of immune cells and healing nutrients to the area.
Chronic inflammation has been linked to a variety of health conditions including obesity, the development of cardiovascular health problems, blood sugar abnormalities, abnormal cellular changes and arthritic complaints.
The inflammatory reaction results from the release of a number of molecules (usually referred to as mediators) that send a signal to the cells and molecules that are needed for healing. In chronic inflammation the body continually releases these mediators which results in a constant state of low level inflammation. This inflammation also causes an increase in oxidative species. The main molecules that have been shown to be effected by molecular hydrogen are Nuclear Factor kappa B (NF-kB), Tumour Necrosis Factor alpha (TNFa) and Interleukin 6 (IL-6). These molecules have been shown to increase the release of many other inflammatory molecules. The reduction of the release of these molecules is an important part of reducing chronic inflammation.
Genes, which are made up of DNA, act as instructions to make molecules called proteins. Genes can be turned off or on depending on the stimulus they receive. In chronic inflammatory states the genes that tell the body to release inflammatory mediators are permanently switched on so inflammatory molecules are constantly released. The molecules that can induce a change in gene status include NF-kB, TNFa, nitric oxide, peroxynitrite, SOD, glutathione, and catalase. Molecular hydrogen has been shown to directly or indirectly decrease excess circulation levels of all these molecules and thus is a potential agent for turning inflammatory genes off.
Cells are constantly sending and receiving signals to and from their surrounding environment. They use this information to maintain homoeostasis and also to react to threats. This complex system of communication that governs basic cellular activities and coordinates cell actions is referred to as cell signalling.
Scientists have long believed that only proteins such as hormones and neurotransmitters, and minerals such as sodium, potassium, calcium and magnesium were capable of being used as cell signalling molecules. It is now known that gases can also act in this role. Gases which act as cell signalling agents are: Nitric Oxide, Hydrogen Peroxide, Hydrogen Sulfite, Carbon monoxide and – it has recently been established – hydrogen also plays this role.
The ability of cells to perceive and correctly respond to their microenvironment is incredibly important. It is the basis of development, tissue repair, and immunity as well as normal tissue homeostasis.
Errors in cell signalling are responsible for diseases such as cancer, autoimmunity, and diabetes.
Many of Molecular Hydrogen’s abilities to reduce oxidative damage and inflammation stem from its role as a cell signalling agent.
Research based on over 700 scientific studies into the potential health benefits of molecular hydrogen has shown a number of conditions, especially those with a strong oxidative and inflammatory element in their progression, may be improved by the therapeutic use of Molecular Hydrogen. These conditions include, but are not limited to:
- Metabolic Syndrome
- Cardiovascular health
- Cognitive function
- Gastrointestinal Function including
- Liver detoxification capacity
- Chronic pain and inflammation
- Abnormal cell division
- Immune function
We are indebted to scientist Tyler LeBaron and Naturopath Erica Whisson for this summary. We have endeavoured to provide enough information on these pages to support your own enlightenment about Molecular Hydrogen.
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