# An Immunohistochemical Study of the Increase in Antioxidant Capacity of Corneal Epithelial Cells by Molecular Hydrogen, Leading to the Suppression of Alkali-Induced Oxidative Stress. > 分子状水素による角膜上皮細胞の抗酸化能増強とアルカリ誘発性酸化ストレス抑制に関する免疫組織化学的検討 ## Abstract Using a rabbit model of corneal alkali injury, this study examined whether topical H2 solution pretreatment could confer protection against subsequent oxidative damage. Eyes pretreated with H2 drops showed mild oxidative stress accompanied by upregulation of antioxidant enzymes in corneal epithelial cells. When these corneas were subsequently exposed to 0.25 M NaOH, alkali-induced oxidative stress was markedly reduced, and transparency was restored in most cases with minimal neovascularization. In contrast, buffer-pretreated corneas exhibited intense oxidative stress, scar formation, and prominent new vessel growth following alkali burn. Immunohistochemistry and pachymetry confirmed these differences. The findings indicate that H2 preconditioning elevates the intrinsic antioxidant capacity of corneal cells, thereby attenuating ROS-mediated injury and suggesting a potential role for H2 in protecting ocular tissues against various conditions involving reactive oxygen species. ### Mechanism H2 pretreatment upregulates antioxidant enzyme expression in corneal epithelial cells, enhancing ROS scavenging capacity and thereby reducing alkali-induced oxidative damage. ## Bibliographic - **Authors**: Cejka C, Kossl J, Holan V, Zhang JH, Cejkova J - **Journal**: Oxid Med Cell Longev - **Year**: 2020 - **PMID**: [32655773](https://pubmed.ncbi.nlm.nih.gov/32655773/) - **DOI**: [10.1155/2020/7435260](https://doi.org/10.1155/2020/7435260) - **PMC**: [PMC7327556](https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7327556/) - **Study type**: animal study - **Delivery route**: topical application - **Effect reported**: positive ## Delivery context Topical applications have localized-effect reports, but systemic hydrogen intake is most efficient via inhalation. Inhalation carries explosion risk (empirical LFL of 10%; high-concentration devices are not recommended). ## Safety notes Topical applications have localized-effect reports, but systemic hydrogen intake is most efficient via inhalation. Inhalation carries explosion risk (empirical LFL of 10%; high-concentration devices are not recommended). See also: - [Inhalation concentration and LFL / UFL](https://h2-papers.org/en/safety-notes/inhalation-concentration) - [Consumer Affairs Agency accident cases](https://h2-papers.org/en/safety-notes/accident-cases) --- > **Cite as**: H2 Papers — PMID 32655773. https://h2-papers.org/en/papers/32655773 > **Source**: PubMed PMID [32655773](https://pubmed.ncbi.nlm.nih.gov/32655773/)