在威斯康星大学溶液中对大鼠肺移植进行24小时冷保存后，采用控制性压力再灌注可改善肺功能。

Controlled pressure reperfusion of rat pulmonary grafts yields improved function after twenty-four-hours' cold storage in University of Wisconsin solution.

作者信息

Hopkinson D N, Bhabra M S, Odom N J, Bridgewater B J, Van Doorn C A, Hooper T L

机构信息

Department of Cardiothoracic Surgery, Manchester, Royal Infirmary, United Kingdom.

出版信息

J Heart Lung Transplant. 1996 Mar;15(3):283-90.

PMID:8777212

Abstract

BACKGROUND

Pulmonary graft recipients commonly have a degree of pulmonary hypertension. Immediate reperfusion of stored pulmonary grafts at supraphysiologic or even physiologic pressures may be detrimental to subsequent function. We wished to test the hypothesis that initial reperfusion of pulmonary grafts at low pressures may be beneficial.

METHODS

We used an isolated, ventilated rat lung model, perfused by an extracorporeal veno-venous circuit from a support animal. Three groups of donor lungs (n = 5 each) were flushed with cold University of Wisconsin solution. Group I was reperfused immediately at physiologic pressure to provide control values. Group II grafts were stored at 4 degrees C for 24 hours and reperfused at physiologic pressure. Group III grafts were also stored at 4 degrees C for 24 hours but reperfused according to a protocol of reduced pressure initially, with increments every 15 minutes up to physiologic levels by 60 minutes. Grafts and support animals were ventilated with room air. Graft function was assessed over a 2-hour period with regard to oxygenation, vascular resistance, peak airway pressure, and the wet/dry weight ratio.

RESULTS

Grafts in group II functioned poorly at 2 hours compared with control values: group II: oxygen tension 68 +/- 4 mm Hg; pulmonary vascular resistance 2488 +/- 675 x 10(3) dyne.sec/cm5; peak airway pressure 32 +/- 1 mm Hg wet/dry wright ratio 9.1 +/- Group I: oxygen tension 136 +/- 2 mm Hg; pulmonary vascular resistance 120 +/- 3 x 10(3) dyne.sec/cm5; peak airway pressure 13 +/- 1 mm Hg and wet/dry weight ratio 3.6 +/- 0.3; p < 0.001 all parameters except pulmonary vascular resistance: p < 0.05. In contrast, grafts undergoing controlled pressure reperfusion (group III) achieved function comparable with baseline values at 2 hours: oxygen tension 137 +/- 3 mm Hg; pulmonary vascular resistance 132 +/- 7 x 10(3) dyne. sec/cm5; peak airway pressure 13 +/- 1 mm Hg; wet/dry weight ratio 4.1 +/- 0.3 (p = Not significant).

CONCLUSIONS

The pressure at which pulmonary grafts are initially reperfused appears to be critical to their subsequent integrity. A protocol of controlled reperfusion may reduce reperfusion injury and improve graft function in clinical practice.

摘要

背景

肺移植受者通常存在一定程度的肺动脉高压。以超生理甚至生理压力对储存的肺移植供体进行即刻再灌注可能对后续功能有害。我们希望验证肺移植供体在低压下进行初始再灌注可能有益这一假设。

方法

我们使用了一种孤立的、通气的大鼠肺模型，由一只支持动物通过体外静脉 - 静脉回路进行灌注。三组供体肺（每组n = 5）用冷的威斯康星大学溶液冲洗。第一组在生理压力下即刻再灌注以提供对照值。第二组移植肺在4℃储存24小时后在生理压力下再灌注。第三组移植肺也在4℃储存24小时，但按照最初减压方案再灌注，每15分钟增加压力，直至60分钟时达到生理水平。移植肺和支持动物用室内空气通气。在2小时内评估移植肺的功能，包括氧合、血管阻力、气道峰值压力和湿/干重比。

结果

与对照值相比，第二组移植肺在2小时时功能较差：第二组：氧分压68±4 mmHg；肺血管阻力2488±675×10³达因·秒/厘米⁵；气道峰值压力32±1 mmHg；湿/干重比9.1±。第一组：氧分压136±2 mmHg；肺血管阻力120±3×10³达因·秒/厘米⁵；气道峰值压力13±1 mmHg；湿/干重比3.6±0.3；除肺血管阻力外所有参数p < 0.001；肺血管阻力p < 0.05。相比之下，进行控制性压力再灌注的移植肺（第三组）在2小时时功能达到与基线值相当的水平：氧分压137±3 mmHg；肺血管阻力132±7×10³达因·秒/厘米⁵；气道峰值压力13±1 mmHg；湿/干重比4.1±0.3（p = 无显著差异）。