在大鼠血栓栓塞性中风后,34°C的轻度低温可减少rt-PA治疗的副作用。

Bernd Kallmünzer, Stefan Schwab, Rainer Kollmar
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引用次数: 25

摘要

背景:低温对实验性脑卒中具有神经保护作用,可以延长目前有限的溶栓治疗时间窗。因此,在血栓栓塞性卒中(TE)模型中,研究了34°C的低温及其对延迟溶栓包括再灌注相关损伤的影响。方法:雄性Wistar大鼠48只。研究了以下治疗组:对照组-常温(37℃);溶栓组TE后90min rt-PA;TE后1.5 ~ 5小时应用34℃低温;低温和rt-PA联合治疗。24小时后评估梗死面积、脑水肿和神经评分。测定炎症和粘连蛋白标志物、明胶酶活性和血脑屏障(BBB)破坏。mri测量研究梗死演变和血流参数。结果:低温组梗死面积和脑肿胀明显小于其他各组(p < 0.05 ~ p < 0.01)。溶栓导致比其他方法更大的梗死和脑肿胀。与溶栓相比,低温联合溶栓降低了这些参数(p < 0.05)。此外,与对照组和溶栓组相比,低温组的神经评分有所改善。联合治疗优于单独溶栓治疗(p < 0.05)。在低温和联合治疗中,sICAM-1和TIMP-1的血清浓度较低。两组的明胶酶活性均因低温而降低。结论:在我们的TE模型中,治疗性低温降低了rt-PA相关治疗和再灌注的副作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Mild hypothermia of 34°C reduces side effects of rt-PA treatment after thromboembolic stroke in rats.

Mild hypothermia of 34°C reduces side effects of rt-PA treatment after thromboembolic stroke in rats.

Mild hypothermia of 34°C reduces side effects of rt-PA treatment after thromboembolic stroke in rats.

Mild hypothermia of 34°C reduces side effects of rt-PA treatment after thromboembolic stroke in rats.

Background: Hypothermia is neuroprotective in experimental stroke and may extend the so far limited therapeutic time window for thrombolysis. Therefore, hypothermia of 34°C and its effects on delayed thrombolysis including reperfusion-associated injury were investigated in a model of thromboembolic stroke (TE).

Methods: Male Wistar rats (n = 48) were subjected to TE. The following treatment groups were investigated: control group - normothermia (37°C); thrombolysis group - rt-PA 90 min after TE; hypothermia by 34°C applied 1.5 to 5 hours after TE; combination therapy- hypothermia and rt-PA. After 24 hours infarct size, brain edema and neuroscore were assessed. Protein markers for inflammation and adhesion, gelatinase activity, and blood brain barrier (BBB) disruption were determined. MRI-measurements investigated infarct evolution and blood flow parameters.

Results: The infarct volume and brain swelling were smaller in the hypothermia group compared to the other groups (p < 0.05 to p < 0.01). Thrombolysis resulted in larger infarct and brain swelling than all others. Hypothermia in combination with thrombolysis reduced these parameters compared to thrombolysis (p < 0.05). Moreover, the neuroscore improved in the hypothermia group compared to control and thrombolysis. Animals of the combination therapy performed better than after thrombolysis alone (p < 0.05). Lower serum concentration of sICAM-1, and TIMP-1 were shown for hypothermia and combination therapy. Gelatinase activity was decreased by hypothermia in both groups.

Conclusions: Therapeutic hypothermia reduced side-effects of rt-PA associated treatment and reperfusion in our model of TE.

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