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目的:探讨耳蜗外淋巴液(PL)-脑脊液(CSF)屏障存在的直接证据。方法:以内源性激素氢化可的松(HC)和外源性激素甲泼尼龙(MP)为示踪剂,应用HPLC技术观察示踪剂在鼓阶外淋巴液(PST)、前庭阶外淋巴液(PSV)、中阶内淋巴液(SME)、CSF以及血液中的动力学变化特征。结果:鼓室内注射HC1h后,PST和PSV中HC浓度几乎完全相同;注射后1~2h,PST,PSV中HC浓度同步快速降低;2~6h期间,HC浓度降幅趋缓;而CSF中HC浓度为0。鼓室内注射MP后,很快同时出现在PST和PSV中,两阶PL各时间测值差异不显著;CSF中MP为0。SME中HC和MP的各时间测值均显著高于PSV,PST。结论:耳蜗小管不存在开放性自由通道使PST与CSF直接沟通,CSF亦不能经耳蜗小管直接进入鼓阶替换或取代PL,提示存在耳蜗PL-CSF屏障
Objective: To investigate the direct evidence of the presence of extra-cochlear extra -mphillary (PL) -crudeal CSF barrier. Methods: The endogenous hormones hydrocortisone (HC) and exogenous hormone methylprednisolone (MP) were used as tracers. HPLC was used to observe the effect of tracer on extra-corpus epicanthora (PST), vestibular extranodal lymph PSV), mid-stage lymphatic fluid (SME), CSF, and the dynamics of the blood. Results: After intratumoral injection of HC1h, the concentration of HC in PST and PSV was almost the same. HC concentrations in PST and PSV decreased rapidly synchronously at 1 ~ 2h after injection, and decreased slowly at 2 ~ 6h. HC concentration in CSF Is 0 After intratympanic injection of MP, it appeared in both PST and PSV at the same time. There was no significant difference between two PL measurements at different time points; MP in CSF was zero. The values of HC and MP in SME were significantly higher than PSV and PST. CONCLUSIONS: There is no open free passage in the cochlear tubules to allow direct communication between PST and CSF, and CSF can not directly enter the scala tympani to replace or replace PL through the cochlear tubules, suggesting the presence of a cochlear PL-CSF barrier