The need for animal models in small-vessel brain disease.

Rui Hua, Wolfgang Walz
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引用次数: 11

Abstract

An argument is made that small-vessel stroke, which usually results in lacunar infarction, is a serious medical problem. Therefore, it is surprising that only a few animal models exist that mimic small-vessel stroke and that these models have not been used for a systematic investigation of the genesis of lacunar infarctions. We make a case that the modified pial vessel class II disruption model mimics certain important aspects of lacunar infarctions, namely cavitation caused specifically by ischemia of smaller vessels. We found evidence that upregulation of inflammatory properties within a few days of inducing lesions prevents repopulation of the lesion with reactive astrocytes. We propose that this is the key mechanism by which cavitation occurs weeks later. We also found that treatment with minocycline after induction of lesions but before cavitation prevented the formation of the fluid-filled cavity. Rather than being walled off, the lesion apparently became part of the brain parenchyma and consisted of reactive astrocytes. We conclude that this new model can be used to investigate the mechanism of lacune formation and its prevention.

小血管脑疾病动物模型的必要性。
一种观点认为,通常导致腔隙性梗死的小血管中风是一个严重的医学问题。因此,令人惊讶的是,只有少数动物模型可以模拟小血管卒中,而这些模型还没有被用于系统地研究腔隙性梗死的发生。我们提出了一个案例,改进的头血管II类破坏模型模拟了腔隙性梗死的某些重要方面,即由小血管缺血引起的空化。我们发现证据表明,在诱导病变的几天内,炎症特性的上调可以防止反应性星形胶质细胞在病变中再生。我们认为这是空化在数周后发生的关键机制。我们还发现,在诱导病变后但在空化之前用二甲胺四环素治疗可以阻止充满液体的腔的形成。病灶并没有被隔离,而是明显地成为脑实质的一部分,并由反应性星形胶质细胞组成。我们认为这个新模型可以用于研究凹痕形成的机制和预防。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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