热缺血兔肺中的肺细胞死亡与肺泡氧储备有关。

Pulmonary cell death in warm ischemic rabbit lung is related to the alveolar oxygen reserve.

作者信息

Kuang J Q, Van Raemdonck D E, Jannis N C, De Leyn P R, Verbeken E K, Flameng W J, Lerut T E

机构信息

Center for Experimental Surgery and Anesthesiology, Katholieke Universiteit Leuven, University Hospitals, Belgium.

出版信息

J Heart Lung Transplant. 1998 Apr;17(4):406-14.

PMID:9588586

Abstract

BACKGROUND

If lungs could be retrieved for transplantation from non-heart-beating cadavers, the shortage of donors might be significantly alleviated.

METHODS

We studied the effect of different postmortem lung conditions on pulmonary cell death. Lungs from 208 New Zealand white rabbits were flushed with trypan blue vital dye solution at intervals after circulatory arrest, fixed, and mounted for histologic examination. Pulmonary cells were judged to be viable on the basis of their ability to exclude trypan blue dye. In the control group, lungs were excised immediately after death and immersed in cold (4 degrees C) saline solution. In the other groups, cadavers were left at room temperature with lungs deflated, ventilated with room air or 100% oxygen or 100% nitrogen, or inflated with room air or 100% oxygen.

RESULTS

There was a gradual increase in percentage (mean +/- SEM) of nonviable cells in the control group from 2.5%+/-0.9% (preischemic value) to 18.1%+/-2.8% at 24 hours after death (p < 0.001). In cadavers with lungs deflated, 79.7%+/-2.1% of cells were nonviable at 24 hours after circulatory arrest (p < 0.001 versus control group). In contrast, room air-ventilated cadavers showed only 21.4%+/-2.7% nonviable cells at this interval (p < 0.001 versus deflated group; not significant versus control group). Values in oxygen-ventilated animals were similar. Nitrogen-ventilated cadavers, however, had significantly more nonviable lung cells (73.8%+/-3.2%; p < 0.001 vs room air and oxygen-ventilated group, not significant vs deflated group). Oxygen-inflated lungs showed a parallel decrease in cell viability up to 4 hours after death when compared with room air-inflated cadaveric lungs, but thereafter more cells became nonviable in the latter group (11.1%+/-0.7% vs 19.6%+/-3.2% at 6 hours and 48.7%+/-7.2% vs 75.5%+/-4.6% at 24 hours, respectively; p < 0.01).

CONCLUSIONS

Postmortem room air ventilation is as good as oxygen ventilation in delaying pulmonary cell death, and its effect is comparable to cold storage; nitrogen ventilation, however, is ineffective and not different from deflation; oxygen inflation will preserve ischemic cells for longer intervals as opposed to room air inflation. Therefore the alveolar oxygen reserve seems to be the critical factor to protect-the lung parenchyma from warm ischemic damage.

摘要

背景

如果能够从非心跳死亡的尸体中获取肺脏用于移植，供体短缺的问题可能会得到显著缓解。

方法

我们研究了不同的死后肺脏状况对肺细胞死亡的影响。在208只新西兰白兔循环停止后的不同时间间隔，用台盼蓝活性染料溶液冲洗肺脏，然后固定并进行组织学检查。根据肺细胞排除台盼蓝染料的能力判断其是否存活。对照组在动物死后立即切除肺脏并浸入冷（4℃）盐溶液中。在其他组中，尸体置于室温下，肺脏放气，用室内空气、100%氧气或100%氮气进行通气，或者用室内空气或100%氧气进行充气。

结果

对照组中，不可存活细胞的百分比（平均值±标准误）从2.5%±0.9%（缺血前值）逐渐增加到死亡后24小时的18.1%±2.8%（p<0.001）。在肺脏放气的尸体中，循环停止后24小时79.7%±2.1%的细胞不可存活（与对照组相比，p<0.001）。相比之下，在此时间段内，用室内空气通气的尸体仅有21.4%±2.7%的不可存活细胞（与放气组相比，p<0.001；与对照组相比无显著差异）。用氧气通气的动物的数值与之相似。然而，用氮气通气的尸体有明显更多的不可存活肺细胞（73.8%±3.2%；与用室内空气和氧气通气的组相比，p<0.001；与放气组相比无显著差异）。与用室内空气充气的尸体肺脏相比，在死亡后长达4小时内，用氧气充气的肺脏细胞活力呈平行下降，但此后后一组中有更多细胞变得不可存活（分别在6小时时为11.1%±0.7%对19.6%±3.2%，在24小时时为48.7%±7.2%对75.5%±4.6%；p<0.01）。