通过减弱前庭中枢通路的速度贮存作用,减轻前庭失调综合征的症状。

IF 1.3 Q3 REHABILITATION
Frontiers in rehabilitation sciences Pub Date : 2024-02-29 eCollection Date: 2024-01-01 DOI:10.3389/fresc.2024.1331135
Jun Maruta, Catherine Cho, Theodore Raphan, Sergei B Yakushin
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引用次数: 0

摘要

背景:中枢前庭系统的速度存储机制与前庭-眼反射(VOR)密切相关,但也有助于空间方位感和自我运动感。我们推测,前庭失调综合症(MdDS)是速度存储感觉适应不当的结果。速度存储不适应可以通过 VOR 的空间再适应来纠正,这一前提最近已转化为针对 MdDS 的首个有效治疗方法。然而,这种治疗方法的初始效果可能会被随后的再触发事件逆转。目前,我们假设可以通过减弱前庭中枢通路的速度存储贡献来减轻 MdDS 症状:43 名 MdDS 患者(年龄 47 ± 14 岁;36 名女性)被随机分配到两个治疗组,并随访 6 个月。在实验室就诊期间,用椅子旋转测试水平 VOR,并用基于模型的参数--时间常数(Tc)和前庭初级传入信号的耦合增益(g0)--量化速度存储的强度。为了减弱速度贮存,第 1 组接受了一系列逐渐增强的低频地球垂直振荡旋转,并与相互冲突的视觉刺激相结合。第 2 组接受了结合头部倾斜和视觉刺激的既定方案,旨在纠正适应不良的空间定向,但不改变速度储存强度。在治疗前和治疗后 6 个月内,症状严重程度由患者按 11 分制自我评定:结果:在第一组中,速度储存通过降低 g0 得到了改变(p p = 0.04),其中大多数人在 6 个月的随访期间保持了类似的改善水平。在第二组中,正如预期的那样,速度储存强度参数没有发生系统性变化。在第 2 组中,80% 的患者最初的症状评分至少减半(P减弱速度储能有望成为治疗 MdDS 的一种持久疗法,可作为 VOR 重新适应方法的补充。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Symptom reduction in mal de débarquement syndrome with attenuation of the velocity storage contribution in the central vestibular pathways.

Background: The velocity storage mechanism of the central vestibular system is closely associated with the vestibulo-ocular reflex (VOR), but also contributes to the sense of orientation in space and the perception of self-motion. We postulate that mal de débarquement syndrome (MdDS) is a consequence of inappropriate sensory adaptation of velocity storage. The premise that a maladapted velocity storage may be corrected by spatial readaptation of the VOR has recently been translated into the development of the first effective treatment for MdDS. However, this treatment's initial impact may be reversed by subsequent re-triggering events. Presently, we hypothesized that MdDS symptoms could alternatively be reduced by attenuating the velocity storage contribution in the central vestibular pathways.

Methods: Forty-three patients with MdDS (aged 47 ± 14 yo; 36 women) were randomly assigned to two treatment groups and followed for 6 months. The horizontal VOR was tested with chair rotation during laboratory visits, and the strength of velocity storage was quantified with model-based parameters-the time constant (Tc) and the gain of coupling from the vestibular primary afferent signals (g0). To attenuate velocity storage, Group 1 underwent a progressively intensifying series of low-frequency earth-vertical oscillatory rotation coupled to conflicting visual stimuli. Group 2 underwent an established protocol combining head tilts and visual stimulation, designed to correct maladapted spatial orientation but not change the velocity storage strength. The symptom severity was self-rated on an 11-point scale and reported before and up to 6 months after the treatment.

Results: In Group 1, velocity storage was modified through reduction of g0 (p < 0.001) but not Tc. The symptom rating was at least halved initially in 43% of Group 1 (p = 0.04), the majority of whom retained a similar level of improvement during the 6-month follow-up period. In Group 2, no systematic change was induced in the parameters of velocity storage strength, as expected. The symptom rating was at least halved initially in 80% of Group 2 (p < 0.001), but paralleling previous findings, symptoms often returned subsequently.

Conclusion: Attenuation of velocity storage shows promise as a lasting remedy for MdDS that can complement the VOR readaptation approach.

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