非心跳供体肾脏实验模型中热缺血损伤与冷缺血损伤的相对影响。

The relative effects of warm and cold ischemic injury in an experimental model of nonheartbeating donor kidneys.

作者信息

Hosgood Sarah A, Bagul Atul, Yang Bin, Nicholson Michael L

机构信息

Department of Transplant Surgery, University Hospitals of Leicester, Leicester, United Kingdom.

出版信息

Transplantation. 2008 Jan 15;85(1):88-92. doi: 10.1097/01.tp.0000296055.76452.1b.

DOI:10.1097/01.tp.0000296055.76452.1b

PMID:18192917

Abstract

BACKGROUND

Ischemia reperfusion injury (I/R) leads to delayed graft function and remains an important problem in renal transplantation. The aim of this experimental study was to assess the effects of warm (WI) and cold ischemia (CI) in models of heartbeating (HBD) and controlled/uncontrolled nonheartbeating donor (NHBD) kidneys.

METHODS

A reperfusion model utilizing cardiopulmonary bypass technology was used to perfuse isolated porcine kidneys with autologous blood after the following conditions: 0 min WI+2 h cold storage (CS); 0 min WI+18 h CS; 10 min WI+2 h CS; 10 min WI+18 h CS; 25 min WI+2 h CS; 25 min WI+18 h CS. Renal function was measured over a period of 3 hr.

RESULTS

Renal functional parameters were not significantly different between 0, 10, 25 WI with 2 h CS [AUC creatinine (Cr) decrease of 1057+/-177, 1102+/-260, and 1245+/-143 micromol/L h, P=0.338; AUC creatinine clearance (CrCl) of 37.7+/-15.8, 36.2+/-21.7, 19.8+/-9.1 ml/min/100 g h, P=0.099]. After 18 h CS, renal function was severely impaired in the 10 and 25 WI groups compared to 0 min WI [AUC Cr of 2156+/-401, 2287+/-148, 1563+/-395 micromol/L h, P=0.037; AUC CrCl of 2.2+/-1.7, 1.5+/-1.5, 21.7+/-13.4 ml/min/100 g h, P=0.007).

CONCLUSION

Warm ischemia of up to 25 min was only detrimental to renal function when kidneys were subsequently preserved in cold storage for 18 hr. This data suggests that limiting the cold storage period is of paramount importance when transplanting kidneys subjected from nonheartbeating donors.

摘要

背景

缺血再灌注损伤（I/R）会导致移植肾功能延迟恢复，仍是肾移植中的一个重要问题。本实验研究的目的是评估温缺血（WI）和冷缺血（CI）在心跳供体（HBD）和可控/不可控非心跳供体（NHBD）肾脏模型中的影响。

方法

采用体外循环技术的再灌注模型，在以下条件下用自体血灌注分离的猪肾：0分钟温缺血+2小时冷保存（CS）；0分钟温缺血+18小时冷保存；10分钟温缺血+2小时冷保存；10分钟温缺血+18小时冷保存；25分钟温缺血+2小时冷保存；25分钟温缺血+18小时冷保存。在3小时内测量肾功能。

结果

0、10、25分钟温缺血且冷保存2小时组之间的肾功能参数无显著差异[肌酐（Cr）曲线下面积（AUC）下降分别为1057±177、1102±260和1245±143微摩尔/升·小时，P=0.338；肌酐清除率（CrCl）AUC分别为37.7±15.8、36.2±21.7、19.8±9.1毫升/分钟/100克·小时，P=0.099]。冷保存18小时后，与0分钟温缺血组相比，10分钟和25分钟温缺血组的肾功能严重受损[Cr AUC分别为2156±401、2287±148、1563±395微摩尔/升·小时，P=0.037；CrCl AUC分别为2.2±1.7、1.5±1.5、21.7±13.4毫升/分钟/100克·小时，P=0.007]。