Giebel W, Wagner H, Scheibe F
Arch Otorhinolaryngol. 1985;242(3):337-41. doi: 10.1007/BF00453559.
In order to develop an experimental model for studying local disturbances of the inner ear microcirculation we conducted a series of experiments using small iron particles. Suspensions of iron were infused into the carotid artery of a tracheotomized guinea pig, after which a magnetic force was applied to the basal part of the cochlea. The cochlear microphonics were measured every 10 min over a frequency range from 200 Hz to 10 000 Hz. The amplitude of the cochlear microphonic decreased with this decrease dependent on the time after the application of the magnet. We then found that this amplitude was up to 30 dB less after 110 min. We were able to demonstrate histologically that the thrombosis induced by the iron particles blocks the circulation of the inner ear and results in a loss of its function.
为了建立一个用于研究内耳微循环局部紊乱的实验模型,我们使用小铁颗粒进行了一系列实验。将铁悬浮液注入气管切开的豚鼠的颈动脉,之后对耳蜗基部施加磁力。在200赫兹至10000赫兹的频率范围内,每隔10分钟测量一次耳蜗微音器电位。耳蜗微音器电位的幅度随着这种下降而降低,这种下降取决于施加磁铁后的时间。然后我们发现,110分钟后,这个幅度降低了多达30分贝。我们能够从组织学上证明,铁颗粒诱导的血栓形成会阻塞内耳循环并导致其功能丧失。