Masakazu Kotoda scite author profile

Blood vessels in the central nervous system (CNS) form a specialized and critical structure, the blood-brain barrier (BBB). We present a resource to understand the molecular mechanisms that regulate BBB function in health and dysfunction during disease. Using endothelial cell enrichment and RNA sequencing, we analyzed the gene expression of endothelial cells in mice, comparing brain endothelial cells to peripheral endothelial cells. We also assessed the regulation of CNS Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:

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Potential Influences of Gut Microbiota on the Formation of Intracranial Aneurysm

Shikata

Shimada

Sato

et al. 2019

Hypertension

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Gut microbiota modulates metabolic and immunoregulatory axes and contributes to the pathophysiology of diseases with inflammatory components, such as atherosclerosis, diabetes, and ischemic stroke. Inflammation is emerging as a critical player in the pathophysiology of intracranial aneurysm. Therefore, we hypothesized that the gut microbiota affects aneurysm formation by modulating inflammation. We induced intracranial aneurysms in mice by combining systemic hypertension and a single injection of elastase into the cerebrospinal fluid. Depletion of the gut microbiota was achieved via an oral antibiotic cocktail of vancomycin, metronidazole, ampicillin, and neomycin. Antibiotics were given three weeks before aneurysm induction and either continued until the end of the experiment or stopped one day before aneurysm induction. We also assessed the effects of the gut microbiota depletion on macrophage infiltration and mRNA levels of inflammatory cytokines. Gut microbiota depletion by antibiotics reduced the incidence when antibiotics were started three weeks before aneurysm induction and continued until the end of the experiment (83% vs. 6%, P < 0.001). Even when antibiotics were stopped one day before aneurysm induction, the gut microbiota depletion significantly reduced the incidence of aneurysms (86% vs. 28%, P < 0.05). Both macrophage infiltration and mRNA levels of inflammatory cytokines were reduced with gut microbiota depletion. These findings suggest that the gut microbiota contributes to the pathophysiology of aneurysms by modulating inflammation. Human studies are needed to determine the exact contribution of the gut microbiota to the pathophysiology of aneurysm formation and disease course in humans.

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Assessment of the potential for pathogen dispersal during high-flow nasal therapy

Kotoda

Hishiyama

Mitsui

et al. 2020

Journal of Hospital Infection

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Keywords:High-flow nasal therapy Pathogen transmission Droplet infection S U M M A R YHigh-flow nasal therapy is increasingly used in hospitals because of its effectiveness and patient comfort. However, pathogens in the patient's nasal and oral cavities may be dispersed by forced air. This study aimed to investigate the risk of pathogen dispersal during high-flow nasal therapy. Liquid and bacterial dispersal were assessed via in-vitro experimental set-ups using a manikin. Thickened water or fresh yeast solution mimicked saliva and nasal mucus secretions. Dispersal was limited to the proximal area of the face and nasal cannula, suggesting that high-flow nasal therapy does not increase the risk of droplet and contact infection.

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Masakazu Kotoda

Profiling the mouse brain endothelial transcriptome in health and disease models reveals a core blood–brain barrier dysfunction module

Potential Influences of Gut Microbiota on the Formation of Intracranial Aneurysm

Assessment of the potential for pathogen dispersal during high-flow nasal therapy

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