Articles & Studies
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1.Akhavan, O., et al., Hydrogen-rich water for green reduction of graphene oxide suspensions. International Journal of Hydrogen Energy, 2015. 40(16): p. 5553-5560.
2.Berjak, P., et al., Cathodic amelioration of the adverse effects of oxidative stress accompanying procedures necessary for cryopreservation of embryonic axes of recalcitrant-seeded species. Seed Science Research, 2011. 21(3): p. 187-203.
3.Hanaoka, K., Antioxidant effects of reduced water produced by electrolysis of sodium chloride solutions. Journal of Applied Electrochemistry, 2001. 31(12): p. 1307-1313.
4.Hanaoka, K., et al., The mechanism of the enhanced antioxidant effects against superoxide anion radicals of reduced water produced by electrolysis. Biophysical Chemistry, 2004. 107(1): p. 71-82.
5.Hiraoka, A., et al., In Vitro Physicochemical Properties of Neutral Aqueous Solution Systems (Water Products as Drinks) Containing Hydrogen Gas, 2-Carboxyethyl Germanium Sesquioxide, and Platinum Nanocolloid as Additives. Journal of Health Science, 2010. 56(2): p. 167-174.
6.Hiraoka, A., et al., Studies on the properties and real existence of aqueous solution systems that are assumed to have antioxidant activities by the action of “active hydrogen”‘. Journal of Health Science, 2004. 50(5): p. 456-465.
7.Kato, S., D. Matsuoka, and N. Miwa, Antioxidant activities of nano-bubble hydrogen-dissolved water assessed by ESR and 2, 2′-bipyridyl methods. Materials Science and Engineering:, 2015. C 53: p. 7-10.
8.Lee, M.Y., et al., Electrolyzed-reduced water protects against oxidative damage to DNA, RNA, and protein. Appl Biochem Biotechnol, 2006. 135(2): p. 133-44.
9.Ohsawa, I., et al., Hydrogen acts as a therapeutic antioxidant by selectively reducing cytotoxic oxygen radicals. Nat Med, 2007. 13(6): p. 688-694.
10.Ohta, S., Molecular hydrogen as a novel antioxidant: overview of the advantages of hydrogen for medical applications. Methods Enzymol, 2015. 555: p. 289-317.
11.Park, E.J., et al., Protective effect of electrolyzed reduced water on the paraquat-induced oxidative damage of human lymphocyte DNA. Journal of the Korean Society for Applied Biological Chemistry, 2005. 48(2): p. 155-160.
12.Park, S.K., et al., Electrolyzed-reduced water confers increased resistance to environmental stresses. Molecular & Cellular Toxicology, 2012. 8(3): p. 241-247.
13.Park, S.K. and S.K. Park, Electrolyzed-reduced water increases resistance to oxidative stress, fertility, and lifespan via insulin/IGF-1-like signal in C. elegans. Biol Res, 2013. 46(2): p. 147-52.
14.Penders, J., R. Kissner, and W.H. Koppenol, ONOOH does not react with H2. Free Radic Biol Med, 2014.
15.Qian, L., et al., Administration of hydrogen-rich saline protects mice from lethal acute graft-versus-host disease (aGVHD). Transplantation, 2013. 95(5): p. 658-62.
16.Shi, Q.H., et al., Hydrogen Therapy Reduces Oxidative Stress-associated Risks Following Acute and Chronic Exposure to High-altitude Environment. Biomed Environ Sci, 2015. 28(3): p. 239-41.
17.Shirahata, S., et al., Electrolyzed-reduced water scavenges active oxygen species and protects DNA from oxidative damage. Biochemical and Biophysical Research Communications, 1997. 234(1): p. 269-274.
18.Yan, H., et al., Mechanism of the lifespan extension of Caenorhabditis elegans by electrolyzed reduced water–participation of Pt nanoparticles. Bioscience, Biotechnology, and Biochemistry, 2011. 75(7): p. 1295-9.
19.Yan, H., et al., electrolyzed reduced water prolongs caenorhabditis elegans lifespan, in Animal Cell Technology: Basic & Applied Aspects. 2010, Springer Netherlands. p. 289-293.
20.Yan, H.X., et al., Extension of the Lifespan of Caenorhabditis elegans by the Use of Electrolyzed Reduced Water. Bioscience Biotechnology and Biochemistry, 2010. 74(10): p. 2011-2015.
21.Yanagihara, T., et al., Electrolyzed hydrogen-saturated water for drinking use elicits an antioxidative effect: a feeding test with rats. Biosci Biotechnol Biochem, 2005. 69(10): p. 1985-7.
22.Cai, W.W., et al., Treatment with hydrogen molecule alleviates TNFalpha-induced cell injury in osteoblast. Mol Cell Biochem, 2013. 373(1-2): p. 1-9.
23.Fujita, R., et al., Effect of molecular hydrogen saturated alkaline electrolyzed water on disuse muscle atrophy in gastrocnemius muscle. Journal of Physiological Anthropology, 2011. 30(5): p. 195-201.
24.Guo, J.D., et al., Hydrogen water consumption prevents osteopenia in ovariectomized rats. Br J Pharmacol, 2013. 168(6): p. 1412-20.
25.Hanaoka, T., et al., Molecular hydrogen protects chondrocytes from oxidative stress and indirectly alters gene expressions through reducing peroxynitrite derived from nitric oxide. Medical Gas Research, 2011. 1(1): p. 18.
26.Itoh, T., et al., Molecular hydrogen inhibits lipopolysaccharide/interferon gamma-induced nitric oxide production through modulation of signal transduction in macrophages. Biochemical and Biophysical Research Communications, 2011. 411(1): p. 143-9.
27.Kawasaki, H., J.J. Guan, and K. Tamama, Hydrogen gas treatment prolongs replicative lifespan of bone marrow multipotential stromal cells in vitro while preserving differentiation and paracrine potentials. Biochemical and Biophysical Research Communications, 2010. 397(3): p. 608-613.
28.Kubota, M., et al., Hydrogen and N-acetyl-L-cysteine rescue oxidative stress-induced angiogenesis in a mouse corneal alkali-burn model. Investigative Ophthalmology and Visual Science, 2011. 52(1): p. 427-33.
29.Lekic, T., et al., Protective effect of hydrogen gas therapy after germinal matrix hemorrhage in neonatal rats. Acta Neurochir Suppl, 2011. 111: p. 237-41.
30.Li, D.Z., et al., Treatment with hydrogen molecules prevents RANKL-induced osteoclast differentiation associated with inhibition of ROS formation and inactivation of MAPK, AKT and NF-kappa B pathways in murine RAW264.7 cells. J Bone Miner Metab, 2013.
31.Sun, Y., et al., Treatment of hydrogen molecule abates oxidative stress and alleviates bone loss induced by modeled microgravity in rats. Osteoporos Int, 2013. 24(3): p. 969-78.
32.Takeuchi, S., et al., Hydrogen may inhibit collagen-induced platelet aggregation: an ex vivo and in vivo study. Internal Medicine, 2012. 51(11): p. 1309-13.
33.Xu, Z., et al., Anti-inflammation effects of hydrogen saline in LPS activated macrophages and carrageenan induced paw oedema. J Inflamm (Lond), 2012. 9: p. 2.
34.Yuan, L., et al., Administration of hydrogen-rich saline in mice with allogeneic hematopoietic stem-cell transplantation. Med Sci Monit, 2015. 21: p. 749-54.
54.Kashiwagi, T., et al., Electrochemically reduced water protects neural cells from oxidative damage. Oxid Med Cell Longev, 2014. 2014: p. 869121.
55.Kobayashi, H., et al., Effects of Hydrogen Gas in a Mouse Cold Induced Brain Injury Model. Journal of Neurotrauma, 2011. 28(5): p. A64-A64.
56.Kuroki, C., et al., Neuroprotective effects of hydrogen gas on brain in three types of stress models: alpha P-31-NMR study. Neuroscience Research, 2009. 65: p. S124-S124.
57.Kuroki, C., et al., Neuroprotective effects of hydrogen gas on brain in three types of stress models: A P-31-NMR and ESR study. Neuroscience Research, 2011. 71: p. E406-E406.
58.Li, J., et al., Hydrogen-rich saline improves memory function in a rat model of amyloid-beta-induced Alzheimer’s disease by reduction of oxidative stress. Brain Res, 2010. 1328: p. 152-161.
59.Liu, F.T., et al., Molecular Hydrogen Suppresses Reactive Astrogliosis Related to Oxidative Injury during Spinal Cord Injury in Rats. CNS Neurosci Ther, 2014.
60.Liu, L., et al., Inhalation of hydrogen gas attenuates brain injury in mice with cecal ligation and puncture via inhibiting neuroinflammation, oxidative stress and neuronal apoptosis. Brain Res, 2014. 1589: p. 78-92.
61.Liu, W., et al., Protective effects of hydrogen on fetal brain injury during maternal hypoxia. Acta Neurochir Suppl, 2011. 111: p. 307-11.
62.Manaenko, A., et al., Hydrogen inhalation is neuroprotective and improves functional outcomes in mice after intracerebral hemorrhage. Acta Neurochir Suppl, 2011. 111: p. 179-83.
63.Manaenko, A., et al., Hydrogen inhalation ameliorated mast cell-mediated brain injury after intracerebral hemorrhage in mice. Critical Care Medicine, 2013. 41(5): p. 1266-75.
64.Mano, Y., et al., Maternal molecular hydrogen administration ameliorates rat fetal hippocampal damage caused by in utero ischemia-reperfusion. Free Radic Biol Med, 2014. 69: p. 324-30.
65.Matsumoto, A., et al., Oral ‘hydrogen water’ induces neuroprotective ghrelin secretion in mice. Sci Rep, 2013. 3: p. 3273.
66.Mei, K., et al., Hydrogen protects rats from dermatitis caused by local radiation. J Dermatolog Treat, 2014. 25(2): p. 182-8.
67.Nagata, K., et al., Consumption of Molecular Hydrogen Prevents the Stress-Induced Impairments in Hippocampus-Dependent Learning Tasks during Chronic Physical Restraint in Mice. Neuropsychopharmacology, 2009. 34(2): p. 501-508.
68.Olah, O., et al., Delayed neurovascular dysfunction is alleviated by hydrogen in asphyxiated newborn pigs. Neonatology, 2013. 104(2): p. 79-86.
69.Ono, H., et al., Improved brain MRI indices in the acute brain stem infarct sites treated with hydroxyl radical scavengers, Edaravone and hydrogen, as compared to Edaravone alone. A non-controlled study. Medical Gas Research, 2011. 1(1): p. 12.
70.Ostojic, S.M., Targeting molecular hydrogen to mitochondria: Barriers and gateways. Pharmacol Res, 2015. 94: p. 51-3. (brain)
71.Pshenichnyuk, S.A. and A.S. Komolov, Dissociative Electron Attachment to Resveratrol as a Likely Pathway for Generation of the H2 Antioxidant Species Inside Mitochondria. The Journal of Physical Chemistry Letters, 2015. 6(7): p. 1104-1110.
72.Sato, Y., et al., Hydrogen-rich pure water prevents superoxide formation in brain slices of vitamin C-depleted SMP30/GNL knockout mice. Biochem Biophys Res Commun, 2008. 375(3): p. 346-350.
73.Shen, L., et al., Hydrogen-rich saline is cerebroprotective in a rat model of deep hypothermic circulatory arrest. Neurochemical Research, 2011. 36(8): p. 1501-11.
74.Shen, M.H., et al., Neuroprotective effect of hydrogen-rich saline in acute carbon monoxide poisoning. CNS Neurosci Ther, 2013. 19(5): p. 361-3.
75.Spulber, S., et al., Molecular hydrogen reduces LPS-induced neuroinflammation and promotes recovery from sickness behaviour in mice. PLoS One, 2012. 7(7): p. e42078.
76.Sun, Q., et al., Hydrogen-rich saline reduces delayed neurologic sequelae in experimental carbon monoxide toxicity. Critical Care Medicine, 2011. 39(4): p. 765-9.
77.Takeuchi, S., et al., Hydrogen improves neurological function through attenuation of blood-brain barrier disruption in spontaneously hypertensive stroke-prone rats. BMC Neurosci, 2015. 16(1): p. 22. (brain)
78.Ueda, Y., A. Nakajima, and T. Oikawa, Hydrogen-Related Enhancement of In Vivo Antioxidant Ability in the Brain of Rats Fed Coral Calcium Hydride. Neurochemical Research, 2010. 35(10): p. 1510-1515.
79.Wang, C., et al., Hydrogen-rich saline reduces oxidative stress and inflammation by inhibit of JNK and NF-kappaB activation in a rat model of amyloid-beta-induced Alzheimer’s disease. Neuroscience Letters, 2011. 491(2): p. 127-32.
80.Wang, T., et al., Oral intake of hydrogen-rich water ameliorated chlorpyrifos-induced neurotoxicity in rats. Toxicol Appl Pharmacol, 2014.
81.Wang, W., et al., Hydrogen rich saline reduces immune-mediated brain injury in rats with acute carbon monoxide poisoning. Neurological Research, 2012. 34(10): p. 1007-15.
82.Xie, F. and X. Ma, Molecular Hydrogen and its Potential Application in Therapy of Brain Disorders. Brain Disord Ther, 2014: p. 2.
83.Yan, H., et al., The neuroprotective effects of electrolyzed reduced water and its model water containing molecular hydrogen and Pt nanoparticles. BMC Proc, 2011. 5 Suppl 8: p. P69.
84.Yamada, T., et al., Hydrogen supplementation of preservation solution improves viability of osteochondral grafts. ScientificWorldJournal, 2014. 2014: p. 109876. (bones)
86.Zhan, Y., et al., Hydrogen gas ameliorates oxidative stress in early brain injury after subarachnoid hemorrhage in rats. Critical Care Medicine, 2012. 40(4): p. 1291-6.
87.Zhang, L., et al., Hydrogen-rich saline controls remifentanil-induced hypernociception and NMDA receptor NR1 subunit membrane trafficking through GSK-3beta in the DRG in rats. Brain Res Bull, 2014. 106C: p. 47-55.
88.Zhou, J., et al., Hydrogen-rich saline reverses oxidative stress, cognitive impairment, and mortality in rats submitted to sepsis by cecal ligation and puncture. Journal of Surgical Research, 2012. 178(1): p. 390-400.
89.Zhuang, Z., et al., Nuclear factor-kappaB/Bcl-XL pathway is involved in the protective effect of hydrogen-rich saline on the brain following experimental subarachnoid hemorrhage in rabbits. J Neurosci Res, 2013. 91(12): p. 1599-608.
90.Zhuang, Z., et al., Hydrogen-rich saline alleviates early brain injury via reducing oxidative stress and brain edema following experimental subarachnoid hemorrhage in rabbits. BMC Neurosci, 2012. 13: p. 47.
91.Akio Kagawa, K.K., Masayuki Mizumoto, Yutaka Tagawa, Yoichi Masiko, Influence of Hydrogen Discharged from Palladium Base Hydrogen Storage Alloys on Cancer Cells. Materials Science Forum, 2012. 706: p. 520-525.
91.Asada, R., et al., Antitumor effects of nano-bubble hydrogen-dissolved water are enhanced by coexistent platinum colloid and the combined hyperthermia with apoptosis-like cell death. Oncol Rep, 2010. 24(6): p. 1463-70.
92.Chen, Y., et al., On the antitumor properties of biomedical magnesium metal. Journal of Materials Chemistry B, 2015. 3(5): p. 849-858.
93.Dole, M., F.R. Wilson, and W.P. Fife, Hyperbaric hydrogen therapy: a possible treatment for cancer. Science, 1975. 190(4210): p. 152-4.
94.Jun, Y., et al., Suppression of invasion of cancer cells and angiogenesis by electrolyzed reduced water. In Vitro Cellular & Developmental Biology-Animal, 2004. 40: p. 79A-79A.
95.Kinjo, T., et al., Suppressive effects of electrochemically reduced water on matrix metalloproteinase-2 activities and in vitro invasion of human fibrosarcoma HT1080 cells. Cytotechnology, 2012. 64(3): p. 357-371.
96.Komatsu, T., Katakura, Y., Teruya, K., Otsubo, K., Morisawa, S., & and S. Shirahata, Electrolyzed reduced water induces differentiation in K-562 human leukemia cells. Animal cell technology: Basic & applied aspects, 2003: p. 387-391.
97.LEE, K.-J., et al., Anticancer Effect of Alkaline Reduced Water. J Int Soc Life Inf Sci, 2004. 22(2): p. 302-305.
98.Matsushita, T., et al., Investigation of protective effect of hydrogen-rich water against cisplatin-induced nephrotoxicity in rats using blood oxygenation level-dependent magnetic resonance imaging. Jpn J Radiol, 2011. 29(7): p. 503-12.
99.Matsuzaki, M., et al., Mechanism of Cancer Cell Death Induced by Hydrogen Discharged from Palladium Base Hydrogen Storage Alloy, in Materials Science and Chemical Engineering 2013. p. 284-290.
100.Motoishi, A., et al., Influence of Active Hydrogen Discharged from Palladium-Nickel Alloy Powder on Biological Cells. Advanced Materials Research, 2013. 669: p. 273-278.
101.Nakanishi, K., et al., growth suppression of HL60 and L6 cells by atomic hydrogen, in Animal Cell Technology: Basic & Applied Aspects, . 2010, Springer Netherlands. p. 323-325.
102.Nakashima-Kamimura, N., et al., Molecular hydrogen alleviates nephrotoxicity induced by an anti-cancer drug cisplatin without compromising anti-tumor activity in mice. Cancer Chemother Pharmacol, 2009.
103.Nan, M., C. Yangmei, and Y. Bangcheng, Magnesium metal-A potential biomaterial with antibone cancer properties. J Biomed Mater Res A, 2014. 102(8): p. 2644-51.
104.Nishikawa, H., et al., Suppression of two-stage cell transformation by electrolyzed reduced water containing platinum nanoparticles, in Animal Cell Technology: Basic & Applied Aspects. 2006, Springer Netherlands. p. 113-119.
105.Nishikawa, R., et al., Electrolyzed Reduced Water Supplemented with Platinum Nanoparticles Suppresses Promotion of Two-stage Cell Transformation. Cytotechnology, 2005. 47(1-3): p. 97-105.
106.Nishikawa, R., et al., Suppression of two-stage cell transformation by electrolyzed reduced water/platinum nanocolloids. In Vitro Cellular & Developmental Biology-Animal, 2004. 40: p. 79A-79A.
107.Roberts, B.J., et al., Response of five established solid transplantable mouse tumors and one mouse leukemia to hyperbaric hydrogen. Cancer Treat Rep, 1978. 62(7): p. 1077-9.
108.Runtuwene, J., et al., Hydrogen-water enhances 5-fluorouracil-induced inhibition of colon cancer. PeerJ, 2015. 3: p. e859.
109.Shirahata, S.K., K. Kusumoto, M. Gotoh, K. Teruya, K. Otsubo, J. S. Morisawa, H. Hayashi, K. Katakura, Electrolyzed Reduced Water Which Can Scavenge Active Oxygen Species Suppresses Cell Growth and Regulates Gene Expression of Animal Cells. New Developments and New Applications in Animal Cell Technology, 2002: p. 93-96.
110.Saitoh, Y., et al., Neutral pH Hydrogen-Enriched Electrolyzed Water Achieves Tumor-Preferential Clonal Growth Inhibition Over Normal Cells and Tumor Invasion Inhibition Concurrently With Intracellular Oxidant Repression. Oncology Research, 2008. 17(6): p. 247-255.
111.Saitoh, Y., et al., Platinum nanocolloid-supplemented hydrogen dissolved water inhibits growth of human tongue carcinoma cells preferentially over normal cells. Exp Oncol, 2009. 31(3): p. 156-62.
112.Tsai, C.F., et al., Enhanced induction of mitochondrial damage and apoptosis in human leukemia HL-60 cells due to electrolyzed-reduced water and glutathione. Biosci Biotechnol Biochem, 2009. 73(2): p. 280-7.
113.Ye, J., et al., Inhibitory effect of electrolyzed reduced water on tumor angiogenesis. Biological & Pharmaceutical Bulletin, 2008. 31(1): p. 19-26.
114.Chen, L., et al., Hydrogen-Saturated Saline Protects Intensive Narrow Band Noise-Induced Hearing Loss in Guinea Pigs through an Antioxidant Effect. PLoS One, 2014. 9(6): p. e100774.
115.Feng, M., et al., Protective effect of saturated hydrogen saline against blue light-induced retinal damage in rats. Int J Ophthalmol, 2012. 5(2): p. 151-7.
116.Huang, L., et al., Hydrogen saline treatment attenuates hyperoxia-induced retinopathy by inhibition of oxidative stress and reduction of VEGF expression. Ophthalmic Res, 2012. 47(3): p. 122-7.
117.Kashiwagi, T., et al., Suppression of glutamate-induced neural cell death by electrolyzed-reduced water, in Animal Cell Technology: Basic & Applied Aspects. 2004, Springer Netherlands. p. 105-109.
118.Kikkawa, Y.S., et al., Hydrogen protects auditory hair cells from free radicals. Neuroreport, 2009. 20(7): p. 689-94.
119.Kurioka, T., et al., Inhaled hydrogen gas therapy for prevention of noise-induced hearing loss through reducing reactive oxygen species. Neurosci Res, 2014.
120.Lin, Y., et al., Hydrogen in drinking water attenuates noise-induced hearing loss in guinea pigs. Neuroscience Letters, 2011. 487(1): p. 12-16.
121.Moossavi, A., F. Bagheri, and H.R. Farkhani, Capabilities of hydrogen Molecules for use in the prevention and treatment in noise induced hearing loss. Rehabilitation Medicine 2014. 2(4).
122.Oharazawa, H., et al., Protection of the Retina by Rapid Diffusion of Hydrogen: Administration of Hydrogen-Loaded Eye Drops in Retinal Ischemia-Reperfusion Injury. Investigative Ophthalmology & Visual Science, 2010. 51(1): p. 487-492.
123.Qu, J., et al., Inhalation of hydrogen gas attenuates ouabain-induced auditory neuropathy in gerbils. Acta Pharmacologica Sinica, 2012. 33(4): p. 445-451.
124.Qu, J., et al., Inhalation of hydrogen gas attenuates cisplatin-induced ototoxicity via reducing oxidative stress. Int J Pediatr Otorhinolaryngol, 2012. 76(1): p. 111-5.
125.Sun, J.C., et al., Hydrogen-rich saline promotes survival of retinal ganglion cells in a rat model of optic nerve crush. PLoS One, 2014. 9(6): p. e99299.
126.Taura, A., et al., Hydrogen protects vestibular hair cells from free radicals. Acta Oto-Laryngologica, 2010. 130: p. 95-100.
127.Tian, L., et al., Hydrogen-rich saline ameliorates the retina against light-induced damage in rats. Med Gas Res, 2013. 3(1): p. 19.
128.Xiao, X., et al., Protective effects of hydrogen saline on diabetic retinopathy in a streptozotocin-induced diabetic rat model. Journal of Ocular Pharmacology and Therapeutics, 2012. 28(1): p. 76-82.
129.Yang, C.X., H. Yan, and T.B. Ding, Hydrogen saline prevents selenite-induced cataract in rats. Molecular Vision, 2013. 19: p. 1684-93.
130.Yokota, T., et al., Protective effect of molecular hydrogen against oxidative stress caused by peroxynitrite derived from nitric oxide in rat retina. Clin Experiment Ophthalmol, 2015.
131.Zhou, Y., et al., Hydrogen-rich saline alleviates experimental noise-induced hearing loss in guinea pigs. Neuroscience, 2012. 209: p. 47-53.
43.Drabek, T. and P.M. Kochanek, Improving outcomes from resuscitation: from hypertension and hemodilution to therapeutic hypothermia to H2. Circulation, 2014. 130(24): p. 2133-5.
244.Fujii, Y., et al., Insufflation of hydrogen gas restrains the inflammatory response of cardiopulmonary bypass in a rat model. Artif Organs, 2013. 37(2): p. 136-41.
245.Hayashi, T., et al., Inhalation of hydrogen gas attenuates left ventricular remodeling induced by intermittent hypoxia in mice. American Journal of Physiology – Heart and Circulatory Physiology, 2011. 301(3): p. H1062-9.
246.Hayashida, K., et al., H(2) gas improves functional outcome after cardiac arrest to an extent comparable to therapeutic hypothermia in a rat model. J Am Heart Assoc, 2012. 1(5): p. e003459.
247.Hayashida, K., et al., Hydrogen Inhalation During Normoxic Resuscitation Improves Neurological Outcome in a Rat Model of Cardiac Arrest, Independent of Targeted Temperature Management. Circulation, 2014.
248.Huo, T.T., et al., Hydrogen-Rich Saline Improves Survival and Neurological Outcome after Cardiac Arrest and Cardiopulmonary Resuscitation in Rats. Anesth Analg, 2014.
249.Jing, L., et al., Cardioprotective Effect of Hydrogen-rich Saline on Isoproterenol-induced Myocardial Infarction in Rats. Heart Lung Circ, 2014.
250.Kasuyama, K., et al., Hydrogen-rich water attenuates experimental periodontitis in a rat model. J Clin Periodontol, 2011. 38(12): p. 1085-90.
251.Nagatani, K., et al., The Effect of Hydrogen Gas on a Mouse Bilateral Common Carotid Artery Occlusion. Brain Edema XVActa Neurochirurgica Supplement 2013.
252.Noda, K., et al., Hydrogen-supplemented drinking water protects cardiac allografts from inflammation-associated deterioration. Transpl Int, 2012. 25(12): p. 1213-22.
253.Qin, Z.X., et al., Hydrogen-rich saline prevents neointima formation after carotid balloon injury by suppressing ROS and the TNF-alpha/NF-kappaB pathway. Atherosclerosis, 2012. 220(2): p. 343-50.
254.Sakai, K., et al., Inhalation of hydrogen gas protects against myocardial stunning and infarction in swine. Scandinavian Cardiovascular Journal, 2012. 46(3): p. 183-9.
255.Shinbo, T., et al., Breathing nitric oxide plus hydrogen gas reduces ischemia-reperfusion injury and nitrotyrosine production in murine heart. Am J Physiol Heart Circ Physiol, 2013. 305(4): p. H542-50.
256.Sun, Q., et al., Oral intake of hydrogen-rich water inhibits intimal hyperplasia in arterialized vein grafts in rats. Cardiovasc Res, 2012. 94(1): p. 144-53.
257.Wu, S., et al., Hydrogen-containing saline attenuates doxorubicin-induced heart failure in rats. Pharmazie, 2014. 69(8): p. 633-6.
258.Xie, Q., et al., Hydrogen gas protects against serum and glucose deprivation induced myocardial injury in H9c2 cells through activation of the NFE2 related factor 2/heme oxygenase 1 signaling pathway. Mol Med Rep, 2014. 10(2): p. 1143-9.
259.Yoshida, A., et al., H(2) mediates cardioprotection via involvements of K(ATP) channels and permeability transition pores of mitochondria in dogs. Cardiovasc Drugs Ther, 2012. 26(3): p. 217-26.
260.Zhang, G., et al., Pharmacological postconditioning with lactic Acid and hydrogen rich saline alleviates myocardial reperfusion injury in rats. Sci Rep, 2015. 5: p. 9858.
261.Aoki, K., et al., Pilot study: Effects of drinking hydrogen-rich water on muscle fatigue caused by acute exercise in elite athletes. Medical Gas Research, 2012. 2(1): p. 12.
262.Bittner, A.C., et al., Intra-Individual Ergonomics (I2E): Performance Effects of Ultra-Negative-Ion Water. Proceedings of the Human Factors and Ergonomics Society Annual Meeting SAGE Journals, 2007. 55(26): p. 1617-1621.
263.Drid, P., et al., Hydrogen-Rich Water in Judo Training. . Psycho-Physiological, Spiritual and Ethical Aspects), 2013: p. 129.
264.Fujiyama, Y. and T. Kitahora, Alkaline electrolytic water (alkali ions water) for drinking water in medicine. Mizu no Tokusei to Atarashii Riyo Gijutsu, Enu-Ti-Esu, Tokyo, 2004: p. 348-457.
265.Hiraoka, A., et al., Effects of drinking a water product with anti-oxidant activities in vitro on the blood levels of biomarker substances for the oxidative stress. Journal of Health Science, 2006. 52(6): p. 817-820.
266.Huang, K.C., et al., Electrolysed-reduced water dialysate improves T-cell damage in end-stage renal disease patients with chronic haemodialysis. Nephrology Dialysis Transplantation, 2010. 25(8): p. 2730-2737.
267.Huang, K.C., et al., Electrolyzed-reduced water reduced hemodialysis-induced erythrocyte impairment in end-stage renal disease patients. Kidney Int, 2006. 70(2): p. 391-8.
268.Huang, K.C., et al., Reduced hemodialysis-induced oxidative stress in end-stage renal disease patients by electrolyzed reduced water. Kidney Int, 2003. 64(2): p. 704-14.
269.Ishibashi, T., et al., Consumption of water containing a high concentration of molecular hydrogen reduces oxidative stress and disease activity in patients with rheumatoid arthritis: an open-label pilot study. Medical Gas Research, 2012. 2(1): p. 27.
270.Ishibashi, T., et al., Therapeutic efficacy of infused molecular hydrogen in saline on rheumatoid arthritis: A randomized, double-blind, placebo-controlled pilot study. Int Immunopharmacol, 2014. 21(2): p. 468-473.
271.Ito, M., et al., Open-label trial and randomized, double-blind, placebo-controlled, crossover trial of hydrogen-enriched water for mitochondrial and inflammatory myopathies. Medical Gas Research, 2011. 1(1): p. 24.
272.Kajiyama, S., et al., Supplementation of hydrogen-rich water improves lipid and glucose metabolism in patients with type 2 diabetes or impaired glucose tolerance. Nutrition Research, 2008. 28: p. 137–143.
273.Kang, K.-M., et al., Effects of drinking hydrogen-rich water on the quality of life of patients treated with radiotherapy for liver tumors. Medical Gas Research, 2011. 1: p. 11.
274.Koyama K, T.Y., Saihara Y, Ando D, Goto Y, Katayama A, Effect of hydrogen saturated alkaline electrolyzed water on urinary oxidative stress markers after an acute exercise: A randomized controlled trial. Anti-aging Med, 2008. 4: p. 117-122.
275.Lee, K.J., et al., Effect of electrolyzed-reduced water: in vivo and in vitro examination and clinical trials, in The 3rd Asia Pacific Conference on Evidence-Based Medicine. 2004: Hong Kong.
276.Li, Q., et al., Hydrogen water intake via tube-feeding for patients with pressure ulcer and its reconstructive effects on normal human skin cells in vitro. Med Gas Res, 2013. 3(1): p. 20.
277.Lu, K.C., et al., Electrolyzed reduced water attenuates hemodialysis-induced mononuclear cells apoptosis in end-stage renal disease patients. Nephrology Dialysis Transplantation, 2006. 21: p. 200-201.
278.Matsumoto, S., T. Ueda, and H. Kakizaki, Effect of supplementation with hydrogen-rich water in patients with interstitial cystitis/painful bladder syndrome. Urology, 2013. 81(2): p. 226-30.
279.Nagatani, K., et al., Safety of intravenous administration of hydrogen-enriched fluid in patients with acute cerebral ischemia: initial clinical studies. Med Gas Res, 2013. 3: p. 13.
280.Nakao, A., et al., Effectiveness of Hydrogen Rich Water on Antioxidant Status of Subjects with Potential Metabolic Syndrome-An Open Label Pilot Study. Journal of Clinical Biochemistry and Nutrition, 2010. 46(2): p. 140-149.
281.Nakayama, M., et al., Biological Effects of Electrolyzed Water in Hemodialysis. Nephron Clinical Practice, 2009. 112(1): p. C9-C15.
282.Nakayama, M., et al., A novel bioactive haemodialysis system using dissolved dihydrogen (H-2) produced by water electrolysis: a clinical trial. Nephrology Dialysis Transplantation, 2010. 25(9): p. 3026-3033.
283.Ono, H., et al., A basic study on molecular hydrogen (H2) inhalation in acute cerebral ischemia patients for safety check with physiological parameters and measurement of blood H2 level. Medical Gas Research, 2012. 2(1): p. 21.
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