Desferrioxamine in warm reperfusion media decreases liver injury aggravated by cold storage  被引量：2

作　　者：Peter G Arthur Xian-Wa Niu Wen-Hua Huang Bastiaan DeBoer Ching Tat Lai Enrico Rossi John Joseph Gary P Jeffrey 

机构地区：[1]School of Biomedical,Biomolecular and Chemical Sciences,the University of Western Australia,Crawley,WA 6009,Australia [2]School of Medicine and Pharmacology,the University of Western Australia,Crawley,WA 6009,Australia [3]Gastroenterology/Hepatology,Sir Charles Gairdner Hospital,Nedlands,WA 6009,Australia [4]WA Liver and Kidney Transplantation Services,QEII Medical Centre,Hospital Avenue,Nedlands,WA 6009,Australia [5]Division of Anatomical Pathology,PathWest,QEII Medical Centre,Hospital Avenue,Nedlands,WA 6009,Australia [6]Department of Biochemistry,Path-West,QEII Medical Centre,Hospital Avenue,Nedlands,WA6009,Australia

出　　处：《World Journal of Gastroenterology》2013年第5期673-681,共9页世界胃肠病学杂志（英文版）

摘　　要：AIM:To evaluate whether desferrioxamine decreases ischemia and perfusion injury aggravated by cold storage(CS)in a rat liver perfusion model. METHODS:Isolated rat livers were kept in CS in University of Wisconsin Solution for 20 h at 4℃,then exposed to 25 min of warm ischemia(WI)at 37℃ followed by 2 h of warm perfusion(WP)at 37℃with oxygenated(95%oxygen and 5%carbon dioxide) Krebs-Henseleit buffer.Desferrioxamine(DFO),an iron chelator,was added at different stages of storage,ischemia and perfusion:in CS only,in WI only,in WP only, in WI and perfusion,or in all stages.Effluent samples were collected after CS and after WI.Perfusate samples and bile were collected every 30 min(0,0.5,1,1.5 and 2 h)during liver perfusion.Cellular injury was assessed by the determination of lactate dehydrogenase(LDH) and aspartate aminotransferase(AST)in the effluent and perfusate samples.Total iron was analysed in the perfusate samples.After WP,the liver was collected for the determination of liver swelling(wet to dry ratio) and liver morphological examination(hematoxylin and eosin staining). RESULTS:Increased CS time caused increased liver dysfunction during WP.After 2 h of WP,liver injury was indicated by increased release of AST(0.5 h CS:9.4± 2.2 U/g liver vs 20 h CS:45.9±10.8 U/g liver,P<0.05) and LDH(0.5 h CS:59±14 U/g liver vs 20 h CS:297 ±71 U/g liver,P<0.05).There was an associated increase in iron release into the perfusate(0.5 h CS:0.11 ±0.03μmoL/g liver vs 20 h CS:0.58±0.10μmoL/g liver,P<0.05)and reduction in bile flow(0.5 h CS: 194±12μL/g vs 20 h CS:71±8μL/g liver,P<0.05). When DFO was added during WI and WP following 20 h of CS,release of iron into the perfusate was de- creased(DFO absent 0.58±0.10μmoL/g liver vs DFO present 0.31±0.06μmoL/g liver,P<0.05),and liver function substantially improved with decreased release of AST(DFO absent 45.9±10.8 U/g liver vs DFO present 8.1±0.9 U/g liver,P<0.05)and LDH(DFO absent 297±71 U/g liver vs DFO present 56±7 U/g liver,P<0.05),and increased bile flow(DFO aAIM: To evaluate whether desferrioxamine decreases ischemia and perfusion injury aggravated by cold storage (CS) in a rat liver perfusion model. METHODS: Isolated rat livers were kept in CS in University of Wisconsin Solution for 20 h at 4?°C, then exposed to 25 min of warm ischemia (WI) at 37?°C followed by 2 h of warm perfusion (WP) at 37?°C with oxygenated (95% oxygen and 5% carbon dioxide) Krebs-Henseleit buffer. Desferrioxamine (DFO), an iron chelator, was added at different stages of storage, ischemia and perfusion: in CS only, in WI only, in WP only, in WI and perfusion, or in all stages. Effluent samples were collected after CS and after WI. Perfusate samples and bile were collected every 30 min (0, 0.5, 1, 1.5 and 2 h) during liver perfusion. Cellular injury was assessed by the determination of lactate dehydrogenase (LDH) and aspartate aminotransferase (AST) in the effluent and perfusate samples. Total iron was analysed in the perfusate samples. After WP, the liver was collected for the determination of liver swelling (wet to dry ratio) and liver morphological examination (hematoxylin and eosin staining). RESULTS: Increased CS time caused increased liver dysfunction during WP. After 2 h of WP, liver injury was indicated by increased release of AST (0.5 h CS: 9.4 ± 2.2 U/g liver vs 20 h CS: 45.9 ± 10.8 U/g liver, P < 0.05) and LDH (0.5 h CS: 59 ± 14 U/g liver vs 20 h CS: 297 ± 71 U/g liver, P < 0.05). There was an associated increase in iron release into the perfusate (0.5 h CS: 0.11 ± 0.03 μmoL/g liver vs 20 h CS: 0.58 ± 0.10 μmoL/g liver, P < 0.05) and reduction in bile flow (0.5 h CS: 194 ± 12 μL/g vs 20 h CS: 71 ± 8 μL/g liver, P < 0.05). When DFO was added during WI and WP following 20 h of CS, release of iron into the perfusate was decreased (DFO absent 0.58 ± 0.10 μmoL/g liver vs DFO present 0.31 ± 0.06 μmoL/g liver, P < 0.05), and liver function substantially improved with decreased release of AST (DFO absent 45.9 ± 10.8 U/g liver vs DFO present 8.1 ± 0.9 U/g liver, P < 0.05

关 键 词：Iron CHELATION Ischemia and PERFUSION injury Liver ORGAN preservation Rat 

分 类 号：R575[医药卫生—消化系统]