In this interview, Tyler LeBaron, Ph.D., reviews some of the many benefits of molecular hydrogen.
Great benefits reported by Dr. Mercola of molecular hydrogen. Molecular hydrogen is introduced into cells and protects our DNA and our genes, so that the mitochondria produce the energy necessary for growth, repair and regeneration of the body, improving our longevity. Molecular hydrogen is 80 times smaller than vitamin C, this provides great hydration capacity to hydrogenated water, and great power to hydrogen to cross the blood-brain barrier. Studies have shown that hydrogen exerts antioxidant, antiapoptotic, anti-inflammatory, and cytoprotective properties that are beneficial to the cell. avoiding chronic and neurodegenerative diseases. Increases superoxide dismutase and glutathione levels just like the Nrf2 diet. The consumption of water in dissolved hydrogen improves the pathology of mitochondrial disorders. Drinking H2-water stimulates energy metabolism, measured by O2 consumption and CO2 production. Molecular Institute of Hydrogen.
Molecular hydrogen exerts multiple biologic effects including anti-inflammation, anti-oxidation, anti-apoptosis, anti-shock, and regulation of autophagy, which may attenuate organ and barrier damage caused by sepsis. Molecular hydrogen antagonizes oxidative stress through multiple pathways, including scavenging of hydroxyl and peroxynitrile radicals, upregulation of expression of antioxidant genes superoxide dismutase, catalase, and myeloperoxidase, and suppression of inducible malondialdehyde activity. nitric oxide synthase, endothelial nitric oxide synthase, and nicotinamide adenine dinucleotide phosphate oxidase.
H 2 has been shown to suppress inflammatory NF-κB signaling and induce the Nrf2/Keap1 antioxidant pathway, as well as improve mitochondrial function and enhance cellular bioenergetics. Numerous preclinical and clinical studies have shown the beneficial effects of H 2 in various diseases, including COVID-19. Molecular hydrogen positively affects physical and respiratory function in acute post-COVID-19 patients.
Hydrogen indirectly affects gene expression through its actions to modulate molecules that have an epigenetic effect. Molecular hydrogen can modulate inflammatory responses and apoptosis via NF-kB and TNFa.
383 SCIENTIFIC STUDIES OF MOLECULAR HYDROGEN IN ENGLISH: HYDROGEN IN BIOMEDICINE
BENEFICIAL BIOLOGICAL EFFECTS AND THE UNDERLYING MECHANISMS OF MOLECULAR HYDROGEN - COMPREHENSIVE REVIEW OF 321 ORIGINAL ARTICLES.
The evolution of molecular hydrogen: a noteworthy potential therapy with clinical significance
Recent studies indicate that molecular hydrogen can inhibit hydroxyl and nitrosyl radicals and can act directly as an antioxidant in cells and tissues, which can cause a marked decrease in oxidative stress and inflammation, leading to a significant decrease in oxidative stress. CVD and metabolic diseases. Clinical and experimental studies indicate that hydrogen therapy, such as hydrogen-rich water, may provide benefits in the management of CVD and metabolic diseases.
Hydrogen-rich water exerts antitumor effects.
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Molecular hydrogen increases the levels of coenzyme Q, essential for coronavirus patients with cardiovascular pathologies. The Q cycle contains three forms of coenzyme Q: coenzyme Q in the oxidized form (ubiquinone), radical form (semiquinone), or reduced form (ubiquinol). H 2 can be a donor of electrons and protons in the Q cycle, causing stimulation of coenzyme Q production and treating mitochondrial dysfunction.
REDOX EFFECTS OF MOLECULAR HYDROGEN AND ITS THERAPEUTIC EFFICACY IN THE TREATMENT OF NEURODEGENERATIVE DISEASES
MOLECULAR HYDROGEN ALLEVIATES LUNG INJURY AFTER TRAUMATIC BRAIN INJURY: PYROPTOSIS AND APOPTOSIS
Hydrogen inhalation ameliorate ventilator-induced lung injury. Prominent effects are seen, especially in diseases mediated by oxidative stress, including cerebral hypoxia, Parkinson's, spinal cord ischemia/reperfusion, heart, lung, liver, kidney, and intestine. Positive evaluations in type 2 diabetes mellitus, metabolic syndrome, hemodialysis, inflammatory and mitochondrial myopathies,
China is treating serious cases of covid-19 with a mixture of molecular hydrogen (2/3) and oxygen (1/3) with good results. Zhong Nanshan epidemiologist and pneumologist and head of China's group of experts to fight the coranovirus explains it in this video. The use of hydroxyl gas inhalation will free and avoid the dangers of urgent ventilators needed for more critical cases. The inhalation method allows the patient to breathe normally and recover with fewer complications.
Hydrogen reduces inflammation and cytotoxic oxygen radicals. Hydrogen reduces sepsis damage, has neuroprotective properties, helps with COPD, reduces tissue damage from cardiac arrest. Hydrogen reduces fan damage.
Molecular hydrogen protects against sepsis-induced cognitive impairment via the mTOR-autophagy pathway.
2% H 2 gas could suppress sepsis lung injury by regulating the expression of heme oxygenase 1, secreted by macrophages and activated monocytes secreting and mediating cytokines of inflammation. Antibodies that neutralize HMGB1 confer protection against tissue damage and injury during sepsis. This action is carried out by the Nrf2 pathway, which plays a major role in the protective effects of H 2 gas on lung damage caused by sepsis.
Molecular hydrogen inhalation had beneficial health effects in terms of improving physical and respiratory function in acute post-COVID-19 patients and may represent a safe and effective approach to accelerate early restoration of function in post-COVID patients. -19.
Inhalation of molecular hydrogen (H2) inhalation had beneficial health effects in terms of improvement of post-C-19 fatigue, physical (6-minute walk test) and respiratory function in post-COVID-19 patients . Patients also noted improvement in fatigue after undergoing hyperbaric oxygen therapy (HBOT) and enhanced external counterpulsation (EECP). Finally. Muscle strength and physical function improved after undergoing an 8-week biweekly physiotherapy course that included aerobic training, strengthening exercises, diaphragmatic breathing techniques, and mindfulness training.
One problem and contraindication--molecular hydrogen inhibits oxalate degradation by gut bacteria that degrade oxalate. People who absorb too much oxalate, which is the most powerful acid in our bodies, should not take molecular hydrogen. PMC article. PMID: 7425629 PMCID: PMC291668. Article is by K A Dawson, M J Allison, P A Hartman.
I noticed I was having an oxalate problem right away when I took molecular hydrogen, did a search and found this article. I absorb too much oxalate from food. I do not know if the oxalate degradation inhibition would be a problem for others such as leading to kidney stones.
Do you believe that it would help or hurt dystrophic muscles like with people with muscular dystrophy?