Hydrogen does not exert neuroprotective effects or improve functional outcomes in rats after intracerebral hemorrhage

Takeuchi, Satoru; Nagatani, Kimihiro; Otani, Naoki; Wada, Koichiro; Mori, Kentaro

doi:10.5137/1019-5149.jtn.14098-15.1

Cited by 5 publications

(4 citation statements)

References 26 publications

(49 reference statements)

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“…These opposing findings might be due to differing experimental conditions, such as different degrees of HI insult, age of pups, H 2 concentration, and length of H 2 exposure. A recent study showed that H 2 administration without surgery did not exert neuroprotective effects or improve functional outcomes in rats after intracerebral hemorrhage [ 109 ]. For spinal cord injury, H 2 treatment improved locomotor behavior recovery in rats [ 110 ] and neurological recovery in mice with experimentally-induced autoimmune encephalomyelitis [ 111 ].…”

Section: Preventive and Therapeutic Applications Of Hmentioning

confidence: 99%

Molecular hydrogen: a preventive and therapeutic medical gas for various diseases

et al. 2017

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Since the 2007 discovery that molecular hydrogen (H2) has selective antioxidant properties, multiple studies have shown that H2 has beneficial effects in diverse animal models and human disease. This review discusses H2 biological effects and potential mechanisms of action in various diseases, including metabolic syndrome, organ injury, and cancer; describes effective H2 delivery approaches; and summarizes recent progress toward H2 applications in human medicine. We also discuss remaining questions in H2 therapy, and conclude with an appeal for a greater role for H2 in the prevention and treatment of human ailments that are currently major global health burdens. This review makes a case for supporting hydrogen medicine in human disease prevention and therapy.

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Section: Preventive and Therapeutic Applications Of Hmentioning

confidence: 99%

Molecular hydrogen: a preventive and therapeutic medical gas for various diseases

et al. 2017

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“…Considering that the pathophysiological mechanisms of neural injury and recovery of consciousness in brain diseases are complicated, the effectiveness of H 2 gas treatment might be dependent on the severity of brain damage and the multiple underlying mechanisms of molecular H 2 . Therefore, it may or may not be effective for all inflammation and oxidation-based diseases[ 38 ].…”

Section: Discussionmentioning

confidence: 99%

Hydrogen inhalation promotes recovery of a patient in persistent vegetative state from intracerebral hemorrhage: A case report and literature review

Huang¹,

Xiao²,

Tang³

et al. 2022

WJCC

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BACKGROUND Persistent vegetative state (PVS) is a devastating and long-lasting clinical condition with high morbidity and mortality; currently, there are no available effective interventions. CASE SUMMARY We report the case of an 11-year-old boy with PVS caused by severe intracerebral bleeding in the left hemisphere following anticoagulation treatment. The patient’s PVS severity showed no notable improvement after 2-mo neuroprotective treatment and rehabilitation, including nerve growth factor and baclofen, hyperbaric oxygen, and comprehensive bedside rehabilitation therapies. Daily inhalation treatment (4-6 h) of high-concentration hydrogen (H 2 ) gas (66.6% H 2 + 33.3% O 2 ) was provided. Surprisingly, the patient’s orientation, consciousness, ability to speak, facial expressions, and locomotor function were significantly restored, along with improvements in essential general health status, after H 2 gas inhalation treatment, which was consistent with stabilized neuropathology in the left hemisphere and increased Hounsfield unit values of computed tomography in the right hemisphere. The patient finally recovered to a near normal conscious state with a Coma Recovery Scale-Revised Score of 22 from his previous score of 3. CONCLUSION Phase 1 clinical trials are needed to explore the safety and efficacy of H 2 gas inhalation in patients with PVS.

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“…On the other hand, treatment with H 2 failed to relieve brain edema or exert a neuroprotective function, although it did decrease the expression of 8-hydroxy-2′-deoxyguanosine, in a rat model of intracerebral hemorrhage. This result may be attributed to the low H 2 concentration that was used in this study, or to the existence of a more complicated mechanism involving reactive oxygen species in intracerebral hemorrhage 76. Therefore, the protective effects of H 2 may differ according to the dosage and/or animal model that are used.…”

Section: Hydrogenmentioning

confidence: 94%

Recent advances in the neuroprotective effects of medical gases

Wang¹,

Li²,

Cao³

et al. 2019

Med Gas Res

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Central nervous system injuries are a leading cause of death and disability worldwide. Although the exact pathophysiological mechanisms of various brain injuries vary, central nervous system injuries often result in an inflammatory response, and subsequently lead to brain damage. This suggests that neuroprotection may be necessany in the treatment of multiple disease models. The use of medical gases as neuroprotective agents has gained great attention in the medical field. Medical gases include common gases, such as oxygen, hydrogen and carbon dioxide; hydrogen sulphide and nitric oxide that have been considered toxic; volatile anesthetic gases, such as isoflurane and sevoflurane; and inert gases like helium, argon, and xenon. The neuroprotection from these medical gases has been investigated in experimental animal models of various types of brain injuries, such as traumatic brain injury, stroke, subarachnoid hemorrhage, cerebral ischemic/reperfusion injury, and neurodegenerative diseases. Nevertheless, the transition into the clinical practice is still lagging. This delay could be attributed to the contradictory paradigms and the conflicting results that have been obtained from experimental models, as well as the presence of inconsistent reports regarding their safety. In this review, we summarize the potential mechanisms underlying the neuroprotective effects of medical gases and discuss possible candidates that could improve the outcomes of brain injury.

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Hydrogen does not exert neuroprotective effects or improve functional outcomes in rats after intracerebral hemorrhage

Cited by 5 publications

References 26 publications

Molecular hydrogen: a preventive and therapeutic medical gas for various diseases

Molecular hydrogen: a preventive and therapeutic medical gas for various diseases

Hydrogen inhalation promotes recovery of a patient in persistent vegetative state from intracerebral hemorrhage: A case report and literature review

Recent advances in the neuroprotective effects of medical gases

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