腺苷低温逆行静脉灌注可使脊髓降温，并降低胸主动脉钳夹后截瘫的风险。

Hypothermic retrograde venous perfusion with adenosine cools the spinal cord and reduces the risk of paraplegia after thoracic aortic clamping.

作者信息

Ross S D, Kern J A, Gangemi J J, St Laurent C R, Shockey K S, Kron I L, Tribble C G

机构信息

Department of Surgery, Division of Thoracic and Cardiovascular Surgery, University of Virginia Health Sciences Center, Charlottesville, VA 22908, USA.

出版信息

J Thorac Cardiovasc Surg. 2000 Mar;119(3):588-95. doi: 10.1016/s0022-5223(00)70141-3.

DOI:10.1016/s0022-5223(00)70141-3

PMID:10694621

Abstract

OBJECTIVE

We evaluated the utility of retrograde venous perfusion to cool the spinal cord and protect neurologic function during aortic clamping. We hypothesized that hypothermic adenosine would preserve the spinal cord during ischemia.

METHODS

Six swine (group I) underwent thoracic aortic occlusion for 30 minutes at normothermia. Group II animals underwent spinal cooling by retrograde perfusion of the paravertebral veins with hypothermic (4 degrees C) saline solution during aortic occlusion. The spinal cords of group III animals were cooled with a hypothermic adenosine solution in a similar fashion. Intrathecal temperature was monitored and somatosensory evoked potentials assessed the functional status of spinal pathways.

RESULTS

Spinal cooling without systemic hypothermia significantly improved neurologic Tarlov scores in group III (4.8 +/- 0.2) and group II (3.8 +/- 0.4) when compared with group I scores (1.3 +/- 0.6) (P <.001). Furthermore, 5 of the 6 animals in group III displayed completely normal neurologic function, whereas only one animal in group II and no animals in group I did (P =.005). Somatosensory evoked potentials were lost 10.6 +/- 1.4 minutes after ischemia in group I. In contrast, spinal cooling caused rapid cessation of neural transmission with loss of somatosensory evoked potentials at 6.9 +/- 1.2 minutes in group II and 7.0 +/- 0.8 minutes in group III (P =.06). Somatosensory evoked potential amplitudes returned to 85% of baseline in group III and 90% of baseline in group II compared with only 10% of baseline in group I (P =.01).

CONCLUSIONS

We conclude that retrograde cooling of the spinal cord is possible and protects against ischemic injury and that adenosine enhances this effect. The efficacy of this method may be at least partly attributed to a more rapid reduction in metabolic and electrical activity of the spinal cord during ischemia.

摘要

目的

我们评估了逆行静脉灌注在主动脉钳夹期间冷却脊髓并保护神经功能的效用。我们假设低温腺苷可在缺血期间保护脊髓。

方法

六只猪（第一组）在常温下进行胸主动脉阻断30分钟。第二组动物在主动脉阻断期间通过用低温（4℃）盐溶液逆行灌注椎旁静脉来冷却脊髓。第三组动物的脊髓以类似方式用低温腺苷溶液冷却。监测鞘内温度，体感诱发电位评估脊髓通路的功能状态。

结果

与第一组评分（1.3±0.6）相比，无全身低温的脊髓冷却显著改善了第三组（4.8±0.2）和第二组（3.8±0.4）的神经Tarlov评分（P<0.001）。此外，第三组6只动物中有5只表现出完全正常的神经功能，而第二组只有1只动物，第一组没有动物表现出完全正常的神经功能（P = 0.005）。第一组在缺血后10.6±1.4分钟体感诱发电位消失。相比之下，脊髓冷却导致神经传导迅速停止，第二组在6.9±1.2分钟、第三组在7.0±0.8分钟时体感诱发电位消失（P = 0.06）。与第一组仅为基线的10%相比，第三组体感诱发电位幅度恢复到基线的85%，第二组恢复到基线的90%（P = 0.01）。