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Inhaled hydrogen gas therapy for prevention of lung transplant-induced ischemia/reperfusion injury in rats.

Authors
Kawamura, T; Huang, CS; Tochigi, N; Lee, S; Shigemura, N; Billiar, TR; Okumura, M; Nakao, A; Toyoda, Y
Citation
Transplantation, 90(12):1344-1351, 2010
Journal Title
Transplantation
ISSN
0041-13371534-6080
Abstract
BACKGROUND: Successful abrogation of ischemia/reperfusion (I/R) injury of lung grafts could significantly improve short- and long-term outcomes for lung transplant (LTx) recipients. Hydrogen gas has potent antioxidant and antiapoptotic properties and has been recently used in number of experimental and clinical studies. The purpose of this research was to investigate whether inhaled hydrogen gas could reduce graft I/R injury during lung transplantation.



METHODS: Orthotopic left LTxs were performed in syngenic Lewis rats. Grafts were perfused with and stored in low potassium dextran solution at 4°C for 6 hr. The recipients received 100% O2 or 98% O2 with 2% N2, 2% He, or 2% H2 during surgery and 1 hr after reperfusion. The effects of hydrogen were assessed by functional, pathologic, and molecular analysis.



RESULTS: Gas exchange was markedly impaired in animals exposed to 100% O2, 2% N2, or 2% He. Hydrogen inhalation attenuated graft injury as indicated by significantly improved gas exchange 2 hr after reperfusion. Graft lipid peroxidation was significantly reduced in the presence of hydrogen, demonstrating antioxidant effects of hydrogen in the transplanted lungs. Lung cold I/R injury causes the rapid production and release of several proinflammatory mediators and epithelial apoptosis. Exposure to 2% H2 significantly blocked the production of several proinflammatory mediators and reduced apoptosis with induction of the antiapoptotic molecules B-cell lymphoma-2 and B-cell lymphoma-extra large.



CONCLUSION: Treatment of LTx recipients with inhaled hydrogen can prevent lung I/R injury and significantly improve the function of lung grafts after extended cold preservation, transplant, and reperfusion.
MeSH terms
Administration, InhalationAnimalsAntioxidantsApoptosis/drug effectsBlotting, WesternGenes, bcl-2Glyceraldehyde-3-Phosphate Dehydrogenases/geneticsHydrogen/administration & dosageHydrogen/therapeutic use*Intercellular Adhesion Molecule-1/geneticsInterleukin-1beta/geneticsInterleukin-6/geneticsLung Transplantation/pathology*Lung Transplantation/physiologyMaleMalondialdehyde/metabolismRatsRats, Inbred LewReperfusionReperfusion Injury/prevention & control*Respiration, Artificial/methodsReverse Transcriptase Polymerase Chain ReactionTracheotomyTransplantation, IsogeneicTumor Necrosis Factor-alpha/geneticsbcl-2-Associated X Protein/genetics
DOI
10.1097/TP.0b013e3181fe1357
PMID
21048533
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Journal Papers > School of Medicine / Graduate School of Medicine > Thoracic & Cardiovascular Surgery
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