[(from second left to right) Tyler LeBaron, Founder of Molecular Hydrogen Foundation (MHF) and Director of International Hydrogen Molecule Association; Jang Moon-chang, Chairman of International Hydrogen Molecule Association; and Lee Kyu-jae, President of The Korean Water Society and professor at Yonsei University.]
“A study was performed to compare the effects of drinking tap water, spring water and hydrogen water. The consumption of tap water after three hours increased oxygen free radicals unstably, while the consumption of hydrogen water reduced oxygen free radicals in only five minutes.”
Link to full article at The Huffington Post click here
This study demonstrates one of H2's unusual benefits-the ability to reduce the production of excess mucus in the airways resulting from cigarette smoking. If you can't kick the habit, then at least drink hydrogen-rich water.
Over-production of mucus is an important pathophysiological feature in chronic airway disease such as chronic obstructive pulmonary disease (COPD) and asthma. Cigarette smoking (CS) is the leading cause of COPD. Oxidative stress plays a key role in CS-induced airway abnormal mucus production. Hydrogen protected cells and tissues against oxidative damage by scavenging hydroxyl radicals. In the present study authors investigated the effect of hydrogen on CS-induced mucus production in rats. Male Sprague-Dawley rats were divided into four groups: sham control, CS group, hydrogen-rich saline pretreatment group and hydrogen-rich saline control group. Lung morphology and tissue biochemical changes were determined by immunohistochemistry, Alcian Blue/periodic acid-Schiff staining, TUNEL, western blot and realtime RT-PCR. Hydrogen-rich saline pretreatment attenuated CS-induced mucus accumulation in the bronchiolar lumen, goblet cell hyperplasia, muc5ac over-expression and abnormal cell apoptosis in the airway epithelium as well as malondialdehyde increase in the BALF. The phosphorylation of EGFR at Tyr1068 and Nrf2 up-regulation expression in the rat lungs challenged by CS exposure were also abrogated by hydrogen-rich saline. Hydrogen-rich saline pretreatment ameliorated CS-induced airway mucus production and airway epithelium damage in rats. The protective role of hydrogen on CS-exposed rat lungs was achieved at least partly by its free radical scavenging ability. This is the first report to demonstrate that intraperitoneal administration of hydrogen-rich saline protected rat airways against CS damage and it could be promising in treating abnormal airway mucus production in COPD.
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