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Effect of molecular hydrogen treatment on <scp>Sepsis‐Associated</scp> encephalopathy in mice based on gut microbiota

Qingqing Han, Yuanyuan Bai, Zhou Chunjing, Beibei Dong, Yingning Li, Ning Luo, Hongguang Chen, Yonghao Yu

2022CNS Neuroscience & Therapeutics25 citationsDOIOpen Access PDF

Abstract

INTRODUCTION: ), and SAE + hydrogen-rich water (HW) groups. The feces of the mice were collected for 16 S rDNA analysis 24 h after the models were established, and the serum and brain tissue of the mice were collected for nontargeted metabolomics analysis. AIM: Destruction of the intestinal microbiota is a risk factor for sepsis and subsequent organ dysfunction, and up to 70% of severely ill patients with sepsis exhibit varying degrees of sepsis-associated encephalopathy (SAE). The pathogenesis of SAE remains unclear. We aimed to explore the changes in gut microbiota in SAE and the regulatory mechanism of molecular hydrogen. RESULTS: Molecular hydrogen treatment significantly improved the functional outcome of SAE and downregulated inflammatory reactions in both the brain and the gut. In addition, molecular hydrogen treatment improved gut microbiota dysbiosis and partially amended metabolic disorder after SAE. CONCLUSIONS: Molecular hydrogen treatment promotes functional outcomes after SAE in mice, which may be attributable to increasing beneficial bacteria, repressing harmful bacteria, and metabolic disorder, and reducing inflammation.

Topics & Concepts

SepsisGut floraDysbiosisPathogenesisInflammationBacteriaMedicineChemistryBiologyMicrobiologyInternal medicineImmunologyGeneticsHydrogen's biological and therapeutic effectsMedicinal Plants and Bioactive CompoundsDialysis and Renal Disease Management