Hydrogen-rich saline injection into the subarachnoid cavity within 2 weeks promotes recovery after acute spinal cord injury

Abstract

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Hydrogen can relieve tissue-damaging oxidative stress, inflammation and apoptosis. Injection of hydrogen-rich saline is an effective method for transporting molecular hydrogen. We hypothesized that hydrogen-rich saline would promote the repair of spinal cord injury induced by Allen′s method in rats. At 0.5, 1, 2, 4, 8, 12 and 24 hours after injury, then once daily for 2 weeks, 0.25 mL/kg hydrogen-rich saline was infused into the subarachnoid space through a catheter. Results at 24 hours, 48 hours, 1 week and 2 weeks after injury showed that hydrogen-rich saline markedly reduced cell death, inflammatory cell infiltration, serum malondialdehyde content, and caspase-3 immunoreactivity, elevated serum superoxide dismutase activity and calcitonin gene-related peptide immunoreactivity, and improved motor function in the hindlimb. The present study confirms that hydrogen-rich saline injected within 2 weeks of injury effectively contributes to the repair of spinal cord injury in the acute stage.

Keywords

• microtubule
• axon
• kinesin-5
• Eg5
• regeneration
• monastrol
• molecular motor protein
• aging
• neurodegenerative disorders
• telomere shortening
• MSCs
• cellular therapy
• traumatic brain injury
• spinal cord injuries
• dual diagnosis
• diagnosis
• complications
• rehabilitation
• post-concussion syndrome
• brain concussion
• blood brain barrier
• phage display
• peptide library
• nanocarrier
• targeting
• Schwann cells
• neurite outgrowth
• neuromuscular junction (NMJ)
• multiple sclerosis
• TGF-β/BMP-7/Smad signaling
• myogenic differentiation
• Trf3
• tumor suppression
• nerve regeneration
• bone marrow mesenchymal stem cells
• cerebral ischemia
• tail vein injection
• middle cerebral artery occlusion
• cell therapy
• neuroprotection
• nerve regeneration
• brain injury
• neuroimaging
• ferumoxytol
• superparamagnetic iron oxide particles
• human adipose-derived stem cells
• middle cerebral artery occlusion
• intracerebral injection
• magnetic resonance imaging
• enhanced susceptibility-weighted angiography image
• modified neurological severity scores
• rats
• Prussian blue staining
• neural regeneration
• neural regeneration
• non-invasive brain stimulation
• transcranial magnetic stimulation
• neurotrophic factor
• brain-derived neurotrophic factor
• neuroplasticity
• hippocampus
• aging
• cognitive function
• nerve regeneration
• curcumin
• neurons
• HIV-1 gp120 V3 loop
• plasticity
• HIV-associated neurocognitive disorders
• output/input curve
• long-term potentiation
• excitatory postsynaptic potential
• paired-pulse facilitation
• Ca 2+
• synaptosome
• NSFC grants
• neural regeneration
• nerve regeneration
• brain injury
• hydrogen sulfide
• cerebral ischemia/reperfusion injury
• P2X 7 receptor
• 2
• 3
• 5-triphenyl-2H-tetrazolium chloride staining
• animal model
• protection
• sodium hydrosulfide
• immunofluorescence
• middle cerebral artery occlusion
• NSFC grant
• neural regeneration
• nerve regeneration
• γ-aminobutyric acid
• glial fibrillary acidic protein
• glutamic acid decarboxylase
• neurotoxicity
• weaning
• organ index
• cerebrum
• cortex
• glutamate
• neural regeneration
• p53 tumor suppressor gene family
• cerebral ischemia/reperfusion
• pyramidal neurons
• CA1 region
• delayed neuronal death
• immunohistochemistry
• western blotting
• neural regeneration
• nerve regeneration
• spinal cord injury
• rapamycin
• Wnt/β-catenin signaling pathway
• apoptosis
• caspase-3
• brain-derived neurotrophic factor
• neuroprotection
• loss of neurons
• NSFC grants
• neural regeneration
• nerve regeneration
• spinal cord injury
• hydrogen-rich saline
• reactive oxygen species
• physiological saline
• oxidative stress
• Basso
• Beattie and Bresnahan score
• malondialdehyde
• superoxide dismutase
• calcitonin gene-related peptide
• caspase-3
• neural regeneration