A review. A very important and interesting paper was submitted by Happe in Jan. 1997. He says, the oldest life forms "Desulfoviorio gigas" 3.8 billion years old, had developed an enzyme 'hydrogenase", to activate hydrogen, namely to split mol. hydrogen to at. hydrogen. Here, the question presented to us is why it was necessary for the oldest life forms to develop such an enzyme as hydrogenase. The answer for the question could be found in the paper submitted by Shirahata in May 1997. He says, the ideal scavenger for active oxygen should be "active hydrogen". Active hydrogen or at. hydrogen can be produced in reduced water near the cathode during electrolysis of water. Namely, the oldest life forms should have developed "hydrogenase" in order to obtain "active hydrogen" with which they could have succeeded in the fight against "active oxygen" which, otherwise, should have had exterminated them. We can say that the ideal countermeasure against active oxygen should be active hydrogen. Nothing can be better scavenger than active hydrogen as far as the principle of hydrogen bond is concerned. In Nov. 1995, I presented a hypothesis "Water Regulating Theory (Hayashi's Model) " in a US health magazine. It says that active oxygen could be scavenged or reduced by at. hydrogen (H+ and e), which results in the prodn. of HO to give again a birthplace for every life form. Since May 1985 we have confirmed thousands of clin. improvements obtained solely by exchanging drinking as well as cooking water from tap water to reduced water. [on SciFinder(R)]
CITATION STYLE
Hayashi, H., & Kawamura, M. (2002). Clinical Applications of Electrolyzed-Reduced Water. In Animal Cell Technology: Basic & Applied Aspects (pp. 31–36). Springer Netherlands. https://doi.org/10.1007/978-94-017-0728-2_6
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