己酮可可碱在实验性脊髓缺血中的评估

Türköz A, Türköz R, Yörükoğlu K, Onat U, Sağýroğlu E, Sağban M

Department of Anesthesiology, Dokuz Eylül University Hospital, Izmir, Turkey.

Eur J Cardiothorac Surg. 1997 Oct;12(4):648-53. doi: 10.1016/s1010-7940(97)00115-2.

OBJECTIVE

Despite the advance of anesthesia and surgery, postoperative neurological dysfunction has remained a challenging problem after descending and thoracoabdominal aortic surgery. The pathophysiology of early and especially late paraplegia is not clearly understood. The effect of pentoxifylline (PTX), an agent known to inhibit in vitro neutrophil activation and improve recovery after cerebral ischemia in animals, was investigated on spinal cord protection.

METHODS

Twenty four New Zealand white rabbits were used for spinal cord ischemia models. Infrarenal aortic occlusion devices were placed. After 48 h, the rabbits were randomly taken for study. The PTX groups (n = 12) were given PTX 40 mg/kg i.v. bolus followed by 0.2 mg/kg/min infusion. The control (CT) group (n = 12) received normal saline. Two groups underwent temporary (20-24 min) spinal cord ischemia in a conscious state. After the operation, the spinal cord function was assessed at 6, 12, 24, 48 and 72 h by the scale (score of 5 = normal hop, score of 0 = no movement). Histological analysis of the spinal cords was carried out immediately after acute paraplegia or within 24 h after development of delayed paraplegia.

RESULTS

During the aortic occlusion, the distal aortic pressures were the same in both groups (PTX group: 14.92 +/- 3.78 mmHg; CT group: 17.42 +/- 3.2 mmHg). At the 72nd h, the scores were not different in the PTX group (1.58 +/- 2.11) and in the CT group (0.83 +/- 1.95) (P = 0.817). Acute paraplegia developed in 3 rabbits (25%) of each group. Delayed paraplegia was observed in 6 rabbits (50%) in the PTX group and 7 rabbits (58%) in the CT group. On morphological examination on the spinal cords, ischemic changes were observed in both groups. Although neutrophil leukocytes were noted in the control group with acute paraplegia and macrophage infiltration was noted in the control group with delayed paraplegia, there was not any leukocyte or macrophage sequestration in the PTX group.

CONCLUSIONS

Neurological deficits after spinal cord ischemic/reperfusion injury were not directly responsible for blood-originated phagocytic cells and the inhibition of this type of cell function did not change the outcome.

目的

尽管麻醉和外科手术技术不断进步，但降主动脉和胸腹主动脉手术后的术后神经功能障碍仍然是一个具有挑战性的问题。早期尤其是晚期截瘫的病理生理学尚不清楚。研究了己酮可可碱（PTX）对脊髓的保护作用，PTX是一种已知能在体外抑制中性粒细胞活化并改善动物脑缺血后恢复的药物。

方法

24只新西兰白兔用于建立脊髓缺血模型。放置肾下主动脉闭塞装置。48小时后，将兔子随机分组进行研究。PTX组（n = 12）静脉推注40mg/kg PTX，随后以0.2mg/kg/min的速度输注。对照组（CT组，n = 12）给予生理盐水。两组在清醒状态下经历临时（20 - 24分钟）脊髓缺血。术后，在6、12、24、48和72小时通过量表评估脊髓功能（评分5 =正常跳跃，评分0 =无运动）。在急性截瘫后立即或在迟发性截瘫发生后24小时内对脊髓进行组织学分析。

结果

在主动脉闭塞期间，两组的远端主动脉压力相同（PTX组：14.92±3.78mmHg；CT组：17.42±3.2mmHg）。在第72小时，PTX组（1.58±2.11）和CT组（0.83±1.95）的评分无差异（P = 0.817）。每组有3只兔子（25%）发生急性截瘫。PTX组观察到6只兔子（50%）出现迟发性截瘫，CT组观察到7只兔子（58%）出现迟发性截瘫。在脊髓的形态学检查中，两组均观察到缺血性改变。虽然在急性截瘫的对照组中发现中性粒细胞，在迟发性截瘫的对照组中发现巨噬细胞浸润，但PTX组未发现任何白细胞或巨噬细胞聚集。