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肢体远程缺血预处理保护脊髓免受缺血再灌注损伤:一种新发现的非神经元但依赖活性氧物质的途径。

Limb remote ischemic preconditioning protects the spinal cord from ischemia-reperfusion injury: a newly identified nonneuronal but reactive oxygen species-dependent pathway.

机构信息

Department of Anesthesiology, Xijing Hospital, Fourth Military Medical University, Xi'an, Shaanxi, China.

出版信息

Anesthesiology. 2010 Apr;112(4):881-91. doi: 10.1097/ALN.0b013e3181d0486d.

DOI:10.1097/ALN.0b013e3181d0486d
PMID:20216397
Abstract

BACKGROUND

It remains to be established whether spinal cord ischemic tolerance can be induced by limb remote ischemic preconditioning (RIPC), and the mechanisms underlying the neuroprotective effects of RIPC on the spinal cord need to be clarified.

METHODS

Spinal cord ischemia was studied in New Zealand White rabbits. In experiment 1, all rabbits were subjected to 20-min spinal cord ischemia by aortic occlusion. Thirty minutes before ischemia, rabbits were subjected to sham intervention or RIPC achieved by bilateral femoral artery occlusion (10 min ischemia/10 min reperfusion, two cycles). Dimethylthiourea (500 mg/kg, intravenously), a hydroxyl radical scavenger, or vehicle was given 1 h before RIPC. Antioxidant enzyme activity was measured along with spinal cord histology and neurologic function. In experiment 2, rabbits were subjected to spinal cord ischemia, with or without RIPC. In addition, rabbits were pretreated with various doses of hexamethonium.

RESULTS

RIPC improved neurologic function and reduced histologic damage. This was associated with increased endogenous antioxidant activity. Dimethylthiourea inhibited the protective effects of RIPC. In contrast, there was no effect of hexamethonium on the protective effect of RIPC.

CONCLUSIONS

An initial oxidative stress acts as a trigger to upregulate antioxidant enzyme activity, rather than the neural pathway, and plays an important role in the formation of the tolerance against spinal cord ischemia by limb RIPC.

摘要

背景

肢体远程缺血预处理(RIPC)是否能诱导脊髓缺血耐受仍有待确定,RIPC 对脊髓的神经保护作用的机制也需要阐明。

方法

本研究在新西兰白兔中研究了脊髓缺血。在实验 1 中,所有兔子均通过主动脉夹闭进行 20 分钟的脊髓缺血。在缺血前 30 分钟,兔子接受假手术或通过双侧股动脉闭塞进行 RIPC(10 分钟缺血/10 分钟再灌注,两个循环)。在 RIPC 前 1 小时给予羟基自由基清除剂二甲基硫脲(500mg/kg,静脉注射)或载体。同时测量脊髓组织学和神经功能以及抗氧化酶活性。在实验 2 中,兔子进行脊髓缺血,有或没有 RIPC。此外,兔子预先用不同剂量的六烃季铵处理。

结果

RIPC 改善了神经功能并减少了组织学损伤。这与内源性抗氧化酶活性的增加有关。二甲基硫脲抑制了 RIPC 的保护作用。相比之下,六烃季铵对 RIPC 的保护作用没有影响。

结论

初始氧化应激作为一种触发因素,上调抗氧化酶活性,而不是神经通路,在肢体 RIPC 形成脊髓缺血耐受中发挥重要作用。

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