Photochemically induced thalamus infarction impairs cognition in a mouse model

丘脑 病变 脾后皮质 梗塞 神经科学 冲程(发动机) 认知 医学 脑梗塞 心脏病学 闭塞 皮质(解剖学) 心理学 病理 缺血 心肌梗塞 机械工程 工程类
作者
Chen Zhang,Shiping Li,Yongjun Wang,Jiong Shi
出处
期刊:Stroke and vascular neurology [BMJ]
卷期号:8 (6): 444-452 被引量:3
标识
DOI:10.1136/svn-2022-002235
摘要

Background Small subcortical infarcts account for up to 25% of ischaemic strokes. Thalamus is one of the subcortical structures that commonly manifest with lacunar infarcts on MRI of the brain. Studies have shown that thalamus infarction is associated with cognitive decline. However, due to the lack of proper animal models, little is known about the mechanism. We aimed to establish a focal thalamus infarction model, characterise the infarct lesion and assess functional effects. Methods Male C57BL/6J mice were anaesthetised, and Rose Bengal dye was injected through the tail vein. The right thalamus was illuminated with green laser light by stereotactic implantation of optic fibre. Characteristics of the infarct and lesion evolution were evaluated by histological analysis and 7T MRI at various times. The cognitive and neurological functions were assessed by behavioural tests. Retrograde tracing was performed to analyse neural connections. Results An ischaemic lesion with small vessel occlusion was observed in the thalamus. It became a small circumscribed infarct with reactive astrocytes accumulated in the infarct periphery on day 21. The mice with thalamic infarction demonstrated impaired learning and memory without significant neurological deficits. Retrogradely labelled neurons in the retrosplenial granular cortex were reduced. Conclusion This study established a mouse model of thalamic lacunar infarction that exhibits cognitive impairment. Neural connection dysfunctions may play a potential role in post-stroke cognitive impairment. This model helps to clarify the pathophysiology of post-stroke cognitive impairment and to develop potential therapies.
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