Molecular hydrogen is a medical gas that has been the subject of medical research for longer than you think. The first public research related to molecular hydrogen and its medicinal properties began in 1798. Almost 100 years later, in 1888, another research was carried out by Dr. Nicholas Sen, who used molecular hydrogen or H2 for medical purposes.
Molecular hydrogen research
In 1975, through a powerful study, it was demonstrated that hyperbaric therapy with molecular hydrogen could even cure cancer. In this study, the scientists proved that mice with skin cancer exposure to a mixture of gas of 2.5% oxygen and 97.5% hydrogen for two weeks occurred—dramatic tumor regressions in mice.
Although the scientific community believed that molecular hydrogen did not significantly affect the human body, many were shocked by the fact that in 2007 a study concluded that molecular hydrogen is a selective anti-oxidant for very aggressive free radicals. The study proved that molecular hydrogen neutralizes the very aggressive hydroxide radical, one of the most toxic radicals for which the human body has no natural protection. It converts it into the water on that occasion.
Since 2007, medical research has proven that molecular hydrogen has significant medical potential in treating many diseases.
Evolution in the medical application has concluded that it has significant therapeutic value in treating some very severe diseases with a fatal outcome.
Molecular hydrogen selective antioxidant
The overall impact of molecular hydrogen on world medicine is incredible. This non-toxic element has a great future in application because it is not harmful but because it is natural and abundant all around us.
Recent publications have found that in addition to directly neutralizing the highly reactive oxidant, H2, indirectly reducing oxidative stress, regulates various genes’ expression. By regulating gene expression, H2 has an anti-inflammatory, anti-allergic, anti-apoptotic compound and stimulates metabolism. In addition to the growing volume of animal research, extensive clinical trials have been performed or are ongoing. Because most drugs work with specific goals, H2 differs from conventional pharmaceutical drugs. Thanks to its high efficiency and lack of side effects, H2 has the potential for clinical application in many diseases.
Molecular hydrogen is a selective antioxidant. It also reduces the very strong oxidant peroxynitrite 0N00-. This means that molecular hydrogen has the potential to protect our DNA and proteins from damage and oxidative stress. This element mustn’t affect cellular homeostasis, that is, that it does not neutralize the positive free radicals that the body needs to function properly.
Impact on metabolism
Molecular hydrogen stimulates the production of endogenous antioxidants through NRF2, which regulates the body’s own antioxidant system. This results in protective enzymes such as glutathione, catalase, and superoxide dismutase. These antioxidants are powerful in reducing oxidative stress in the body, associated with almost all human diseases.
Molecular hydrogen participates in genetic expression, cell modulation, and protein regulation. This means that H2 can alter cellular signaling pathways. Research has shown that molecular hydrogen can regulate inflammatory cytokines, hormones, and more.
According to previous research, molecular hydrogen helps with:
Alzheimer’s disease, arthritis, rheumatoid arthritis, type 1 and 2 diabetes, Parkinson’s disease, asthma, heart problems, kidney disease, high blood pressure, cancer, tumor, psoriasis, and many other diseases
Summary
The potential of molecular hydrogen is huge, and research is underway. It does not happen every day that an element with a huge medical background in research and examples of healing appears. Above all, this element is found in the most important element that gives life: water.
