EBioMedicine (Dec 2022)

Impaired peri-olfactory cerebrospinal fluid clearance is associated with ageing, cognitive decline and dyssomniaResearch in context

  • Ying Zhou,
  • Wang Ran,
  • Zhongyu Luo,
  • Jianan Wang,
  • Mengmeng Fang,
  • Kai Wei,
  • Jianzhong Sun,
  • Min Lou

Journal volume & issue
Vol. 86
p. 104381

Abstract

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Summary: Background: Animal experiments have demonstrated the dependency of cerebrospinal fluid clearance function on age and sleep, which partially underlay the cognitive decline in the elderly. However, human evidence is lacking, which could be mainly attributed to the limited methods of cerebrospinal fluid clearance function assessment. Method: Serial T1-weighted and T2-fluid attenuated inversion recovery imaging were performed in 92 patients before and at multiple time points including 4.5 h, 15 h and 39 h after intrathecal injection of contrast agent to visualize the putative meningeal lymphatic pathway, peri-olfactory nerve pathway, and peri-optic nerve pathway. We defined the clearance function as the percentage change in signal unit ratio of critical locations in these pathways from baseline to 39 h after intrathecal injection, and further analysed their relationships with age, sleep, and cognitive function. Findings: Cerebrospinal fluid clearance through the putative meningeal lymphatic and perineural pathways were clearly visualized. The clearance function of putative meningeal lymphatic and perineural pathways were impaired with ageing (all P < 0.05). The clearance function through peri-olfactory nerve pathway in inferior turbinate was positively correlated with sleep quality and cognitive function (both P < 0.05), and mediated the association of sleep quality with cognitive function (percent change in β [bootstrap 95% CI]: 33% [−0.220, −0.007]). Interpretation: The impaired clearance through putative peri-olfactory nerve pathway may explain the cognitive decline in patients with sleep disturbance. The study shows a promising method to assess cerebrospinal fluid clearance function of putative peri-neural pathways via dynamic magnetic resonance imaging with intrathecal injection of contrast agent. Funding: This work was supported by the National Natural Science Foundation of China (81971101, 82171276 and 82101365).

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