Department of Otolaryngology-Head and Neck Surgery.
Department of Neurology.
Otol Neurotol. 2018 Dec;39(10):e1150-e1159. doi: 10.1097/MAO.0000000000002024.
Magnetic vestibular stimulation (MVS) elicits nystagmus in C57BL/6J mice but not head tilt mice lacking Nox3, which is required for normal otoconial development.
Humans have vertigo and nystagmus in strong magnetic fields within magnetic resonance imaging machines. The hypothesized mechanism is a Lorentz force driven by electrical current entering the utricular neuroepithelium, acting indirectly on crista hair cells via endolymph movement deflecting cupulae. We tested an alternate hypothesized mechanism: Lorentz action directly on crista hair cell stereocilia, driven by their currents independent of the utricle.
Before MVS, vestibulo-ocular reflex responses of eight C57BL/6J mice and six head tilt mice were measured during whole-body sinusoidal rotations and tilts using video-oculography. Mice were then placed within a 4.7 Tesla magnetic field with the horizontal semicircular canals approximately Earth-horizontal for ≥1 minute in several head orientations, while eye movements were recorded via infrared video in darkness.
Outside the magnet, both C57BL/6J and head tilt mice had intact horizontal vestibulo-ocular reflex, but only C57BL/6J mice exhibited static counter-roll responses to tilt (normal utiruclo-ocular reflex). When placed in the magnet nose-first, C57BL/6J mice had left-beating nystagmus, lasting a median of 32.8 seconds. When tail-first, nystagmus was right-beating and similar duration (median 28.0 s, p > 0.05). In contrast, head tilt mice lacked magnetic field-induced nystagmus (p < 0.001).
C57BL/6J mice generate nystagmus in response to MVS, while mice deficient in Nox3 do not. This suggests 1) a normal utricle is necessary, and 2) functioning semicircular canals are insufficient, to generate MVS-induced nystagmus in mice.
磁前庭刺激(MVS)在 C57BL/6J 小鼠中引起眼球震颤,但在缺乏 Nox3 的头倾斜小鼠中不引起眼球震颤,Nox3 是正常耳石发育所必需的。
人类在磁共振成像机器中的强磁场中会出现眩晕和眼球震颤。假设的机制是由进入耳石神经上皮的电流产生的洛伦兹力,通过内淋巴运动使杯状突偏转来间接作用于嵴毛细胞。我们测试了一个替代假设的机制:洛伦兹力直接作用于嵴毛细胞的静纤毛,由其电流驱动,而与耳石无关。
在 MVS 之前,使用视频眼动描记法测量 8 只 C57BL/6J 小鼠和 6 只头倾斜小鼠在全身正弦旋转和倾斜期间的前庭眼反射反应。然后,将小鼠置于 4.7 特斯拉磁场中,水平半规管大致与地球水平,在几个头位方向上放置≥1 分钟,同时在黑暗中通过红外视频记录眼球运动。
在磁场外,C57BL/6J 和头倾斜小鼠均具有完整的水平前庭眼反射,但只有 C57BL/6J 小鼠表现出对倾斜的静态反滚反应(正常的耳石-眼反射)。当鼻子朝向前方放入磁场时,C57BL/6J 小鼠出现左跳动眼球震颤,持续中位数 32.8 秒。当尾巴朝向前方时,眼球震颤为右跳动,持续时间相似(中位数 28.0 秒,p>0.05)。相比之下,头倾斜小鼠缺乏磁场诱导的眼球震颤(p<0.001)。
C57BL/6J 小鼠对 MVS 产生眼球震颤,而缺乏 Nox3 的小鼠则不产生。这表明 1)正常的耳石是必需的,2)功能半规管是不够的,以在小鼠中产生 MVS 诱导的眼球震颤。
