Ischemic cerebrovascular disease has high disability and mortality rates that can result in related sequelae if not treated promptly and properly. Nanofluorescent probes are useful in the early diagnosis of the disease due to their high sensitivity and specificity, thus facilitating early therapeutic measures and observation of disease progression. Here, a novel nanostructure probe was designed to detect the expression of miR-203 in a cerebral ischemia-reperfusion injury (CIRI) model after sevoflurane treatment, and the effects of sevoflurane and neuroinflammatory injury were discussed. A CIRI rat model was established to study miR-203 expression, nerve injury, oxidative stress, and inflammatory factors in the brain tissue of rats treated with sevoflurane. The nanofluorescent probe showed high specificity and sensitivity for miR-203 detection. miR-203 was over-expressed in CIRI rats, which was decreased by sevoflurane treatment. In addition, sevoflurane treatment significantly improved neurological function, learning, and memory in CIRI rats; decreased malondialdehyde, lactate dehydrogenase, and superoxide dismutase levels; and inhibited the expression of tumor necrosis factor α and interleukins 1 and 6. Moreover, an inverse correlation was determined between miR-203 expression and the degree of neuroinflammation. This study demonstrated that miR-203 may be a useful diagnostic and prognostic index for neuroinflammatory injury.
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