单侧脑血管中风大鼠感觉运动和脑电图不对称的年龄依赖性。

Slavianka G Moyanova, Rumiana G Mitreva, Lidia V Kortenska, Ferdinando Nicoletti, Richard T Ngomba
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引用次数: 8

摘要

背景:受中风影响最大的人群是65岁以上的老年人。本研究旨在满足老年动物脑缺血模型比年轻动物模型与临床环境更相关的建议。到目前为止,大多数检查年龄对中风结果影响的临床前研究都是用老年大鼠进行的。考虑到中风在年轻人中的发病率比老年人高,需要在动物模型中采用新的转化方法来匹配中风的恢复。更好地了解中年大鼠脑卒中结局的改变具有重要的预防和管理意义,为未来研究各种神经保护和神经恢复药物对晚期衰老前可能发生的脑血管意外的作用提供线索。方法:观察有意识大鼠大脑中动脉附近单侧脑内灌注内皮素-1 (Et-1)致短暂局灶性缺血对中年(11-12月龄)大鼠脑损伤体积及行为和脑电图输出测量不对称性的影响。结果:Et-1输注后3天缺血性脑损伤体积无年龄依赖性差异。然而,年龄是脑卒中后神经和脑电图结果的重要决定因素。中年缺血性大鼠对侧体感觉功能受损程度较年轻缺血性大鼠严重,因而左右反射/感觉运动不对称性更大。脑电信号的不对称性在中年缺血大鼠中比在年轻缺血大鼠中更为明显,这可以初步解释行为的不对称性。结论:采用多参数方法,我们验证了内皮素对中年大鼠缺血的影响。研究结果为进一步研究脑损伤后的可塑性机制提供了线索,并激发了对晚期衰老前可能发生的脑血管意外的新神经保护策略的研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Age-dependence of sensorimotor and cerebral electroencephalographic asymmetry in rats subjected to unilateral cerebrovascular stroke.

Age-dependence of sensorimotor and cerebral electroencephalographic asymmetry in rats subjected to unilateral cerebrovascular stroke.

Age-dependence of sensorimotor and cerebral electroencephalographic asymmetry in rats subjected to unilateral cerebrovascular stroke.

Age-dependence of sensorimotor and cerebral electroencephalographic asymmetry in rats subjected to unilateral cerebrovascular stroke.

Background: The human population mostly affected by stroke is more than 65 years old. This study was designed to meet the recommendation that models of cerebral ischemia in aged animals are more relevant to the clinical setting than young animal models. Until now the majority of the pre-clinical studies examining age effects on stroke outcomes have used rats of old age. Considering the increasing incidence of stroke among younger than old human population, new translational approaches in animal models are needed to match the rejuvenation of stroke. A better knowledge of alterations in stroke outcomes in middle-aged rats has important preventive and management implications providing clues for future investigations on effects of various neuroprotective and neurorestorative drugs against cerebrovascular accidents that may occur before late senescence.

Methods: We evaluated the impact of transient focal ischemia, induced by intracerebral unilateral infusion of endothelin-1 (Et-1) near the middle cerebral artery of conscious rats, on volume of brain damage and asymmetry in behavioral and electroencephalographic (EEG) output measures in middle-aged (11-12 month-old) rats.

Results: We did not find any age-dependent difference in the volume of ischemic brain damage three days after Et-1 infusion. However, age was an important determinant of neurological and EEG outcomes after stroke. Middle-aged ischemic rats had more impaired somatosensory functions of the contralateral part of the body than young ischemic rats and thus, had greater left-right reflex/sensorimotor asymmetry. Interhemispheric EEG asymmetry was more evident in middle-aged than in young ischemic rats, and this could tentatively explain the behavioral asymmetry.

Conclusions: With a multiparametric approach, we have validated the endothelin model of ischemia in middle-aged rats. The results provide clues for future studies on mechanisms underlying plasticity after brain damage and motivate investigations of novel neuroprotective strategies against cerebrovascular accidents that may occur before late senescence.

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