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Luminal preloading with hydrogen‐rich saline ameliorates ischemia‐reperfusion injury following intestinal transplantation in rats
Author(s) -
Yamamoto Hirotsugu,
Aokage Toshiyuki,
Igawa Takuro,
Hirayama Takahiro,
Seya Mizuki,
IshikawaAoyama Michiko,
Nojima Tsuyoshi,
Nakao Atsunori,
Naito Hiromichi
Publication year - 2020
Publication title -
pediatric transplantation
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.457
H-Index - 69
eISSN - 1399-3046
pISSN - 1397-3142
DOI - 10.1111/petr.13848
Subject(s) - medicine , transplantation , saline , reperfusion injury , small intestine , intestinal permeability , intestinal mucosa , proinflammatory cytokine , ischemia , western blot , ileum , immunology , pathology , pharmacology , inflammation , chemistry , biochemistry , gene
Abstract Prolonged intestinal cold storage causes considerable mucosal breakdown, which could bolster bacterial translocation and cause life‐threatening infection for the transplant recipient. The intestine has an intraluminal compartment, which could be a target for intervention, but has not yet been fully investigated. Hydrogen gas exerts organ protection and has used been recently in several clinical and basic research studies on topics including intestinal transplantation. In this study, we aimed to investigate the cytoprotective efficacy of intraluminally administered hydrogen‐rich saline on cold IR injury in intestinal transplantation. Isogeneic intestinal transplantation with 6 hours of cold ischemia was performed on Lewis rats. Hydrogen‐rich saline (H 2 concentration at 5 ppm) or normal saline was intraluminally introduced immediately before preservation. Graft intestine was excised 3 hours after reperfusion and analyzed. Histopathological analysis of control grafts revealed blunting of the villi and erosion. These mucosal changes were notably attenuated by intraluminal hydrogen. Intestinal mucosa damage caused by IR injury led to considerable deterioration of gut barrier function 3 h post‐reperfusion. However, this decline in permeability was critically prevented by hydrogen treatment. IR‐induced upregulation of proinflammatory cytokine mRNAs such as IL‐6 was mitigated by hydrogen treatment. Western blot revealed that hydrogen treatment regulated loss of the transmembrane protein ZO‐1. Hydrogen‐rich saline intraluminally administered in the graft intestine modulated IR injury to transplanted intestine in rats. Successful abrogation of intestinal IR injury with a novel strategy using intraluminal hydrogen may be easily clinically applicable and will compellingly improve patient care after transplantation.