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Literature DB >> 30667320

Fracture shortly before stroke in mice leads to hippocampus inflammation and long-lasting memory dysfunction.

Zhengxi Li¹, Meng Wei¹, Haiyan Lyu¹, Kang Huo¹, Liang Wang¹, Meng Zhang¹, Hua Su¹.

Abstract

Cognitive impairment occurs in stroke and hip fracture patients. In mice, bone fracture (BF) exacerbates stroke-related neuronal damage and sensorimotor dysfunction. We hypothesize that BF exacerbates post-stroke cognitive impairment. Adult mice were randomly assigned into BF, stroke, BF+stroke (BF 6 h before stroke), and control (sham operated) groups. Memory function was evaluated weekly for eight weeks by Y maze test and at eight weeks post-surgeries by novel object recognition (NOR) test. The neuronal damage and inflammation in hippocampus were analyzed three days and eight weeks after the surgeries. In Y maze test, BF+stroke mice started making fewer alternations than controls two weeks after the surgeries. Significant difference between BF+stroke and stroke groups started at five weeks post-injury and continued to the end of the experiment. In NOR test, BF+stroke group spent less time on novel objective than that of other groups. Cx3cr1+ cells and CD68+ cells accumulated in the stratum lacunosum moleculare (SLM) on the ipsilateral side of stroke injury in stroke and BF+stroke mice. BF+stroke mice had a higher ratio of ipsilateral/contralateral Cx3cr1+ cell-density than that of stroke mice. Therefore, BF shortly before stroke exacerbates hippocampal inflammation and causes long-lasting memory dysfunction.

Entities: Disease Gene Species

Keywords: Ischemic stroke; bone fracture; memory dysfunction; neuroinflammation; stroke recovery

Mesh：

Year: 2019 PMID： 30667320 PMCID： PMC7370615 DOI： 10.1177/0271678X19825785

Source DB: PubMed Journal: J Cereb Blood Flow Metab ISSN： 0271-678X Impact factor: 6.200

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