Antioxidant Effect of Hydrogen Nanobubble Contributes to Suppression of Tumor Cell Growth

Veröffentlicht 2019 Japan Atsushi Taninaka Gjergj Dodbiba Hidemi Shigekawa Hirofumi Matsui Hiromi Kurokawa Hiromu Ito Toyohisa Fujita Yuezhou Wei Cell Culture Biomedical Journal of Scientific and Technical Research Culture Media Positive Whole Body Cancer Oncogenesis Gas (Sustained Release)

The antitumor effect of hydrogen nanobubble was evaluated in vitro and in vivo. Cancer cell growth was inhibited in the hydrogen nanobubble-containing medium compared to the non-containing medium (in vitro). Tumor growth was significantly suppressed in the middle stage of transplantation (in vivo). We reported that hydrogen nanobubbles is a ROS scavenger, therefore apoptosis due to ROS reduction may be induced in these results.

Mehr lesen: https://doi.org/10.26717/BJSTR.2019.19.003361

Hyperbaric hydrogen therapy: A possible treatment for cancer

Veröffentlicht 1975 Positive Skin Cancer Oncogenesis

Hairless albino mice with squamous cell carcinoma were exposed to a mixture of 2.5 percent oxygen and 97.5 percent hydrogen at a total pressure of 8 atmospheres for periods up to 2 weeks in order to see if a free radical decay catalyzer, such as hydrogen, would cause...

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Veröffentlicht 1978 Neutral Whole Body Cancer Oncogenesis

A variety of transplantable mouse tumors were used in experiments to determine the efficacy of hyperbaric hydrogen treatment. After 7 continuous days of hyperbaric hydrogen treatment, no inhibition of tumor growth was observed.

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Veröffentlicht 1998 Positive Whole Body Cancer Oncogenesis

Active oxygen species are considered to cause extensive oxidative damage to biological macromolecules, which bring about a variety of diseases as well as aging. Reduced water produced near cathode during electrolysis of water exhibits high pH, low dissolved oxygen,...

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Veröffentlicht 2001 Positive Whole Body Cancer Oncogenesis

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Antioxidant Effect of Hydrogen Nanobubble Contributes to Suppression of Tumor Cell Growth

Hyperbaric hydrogen therapy: A possible treatment for cancer

Response of five established solid transplantable mouse tumors and one mouse leukemia to hyperbaric hydrogen

Electrolyzed Reduced Water Which Can Scavenge Active Oxygen Species Supresses Cell Growth and Regulates Gene Expression of Animal Cells

Suppressive Effect of Electrolyzed-Reduced Water on the Growth of Cancer Cells and Microorganisms

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Antioxidant Effect of Hydrogen Nanobubble Contributes to Suppression of Tumor Cell Growth

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Hyperbaric hydrogen therapy: A possible treatment for cancer

Response of five established solid transplantable mouse tumors and one mouse leukemia to hyperbaric hydrogen

Electrolyzed Reduced Water Which Can Scavenge Active Oxygen Species Supresses Cell Growth and Regulates Gene Expression of Animal Cells

Suppressive Effect of Electrolyzed-Reduced Water on the Growth of Cancer Cells and Microorganisms

Últimas publicações

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Obrigado por subscrever a nossa newsletter.

Membranas convencionais

Não há eliminação completa durante toda a vida útil

Prazo de validade curto, geralmente de apenas um ano

Elevado rácio de águas residuais de 1:2 a 1:4 litros

Sujeito a elevadas cargas de partículas e incrustações, o que reduz a vida útil

Sem tecnologia patenteada e, na maioria das vezes, produtos de massa

Membrana Evodrop

99,9% de filtragem eficaz sem redução

Manutenção após 10 000 litros ou, o mais tardar, após 5 anos

Baixa proporção de águas residuais de 1:1

A estrutura integrada da superfície minimiza a aderência de partículas e resíduos

Processo de membrana protegida (Orbital Osmosis®)