Post-activation depression of the Hoffman reflex is not altered by galvanic vestibular stimulation in healthy subjects.

IF 2.6 3区 医学 Q2 BEHAVIORAL SCIENCES
Mónica Del Carmen Alvarado-Navarrete, Adriana C Pliego-Carrillo, Claudia Ivette Ledesma-Ramírez, Carlos A Cuellar
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引用次数: 0

Abstract

The comprehension of the neural elements interacting in the spinal cord affected by vestibular input will contribute to the understanding of movement execution in normal and pathological conditions. In this context, Hoffman's reflex (H-reflex) has been used to evaluate transient excitability changes on the spinal cord descending pathways. The post-activation depression (P-AD) of the H-reflex consists of evoking consecutive responses (>1 Hz) provoking an amplitude depression, which has been shown to diminish in pathological conditions (i.e., spasticity, diabetic neuropathy). Galvanic Vestibular Stimulation (GVS) is a non-invasive method that activates the vestibular afferents and has been used to study the excitability of the H-reflex applied as a conditioning pulse. To our knowledge, there are no reports evaluating the P-AD during and after GVS. Our primary aim was to determine if GVS alters the P-AD evoked by stimulating the tibial nerve at 0.1, 1, 5, and 10 Hz, recording in the gastrocnemius and soleus muscles. Direct current stimulation of 2.0 ± 0.6 mA with the cathode ipsilateral (Ipsi) or contralateral (Contra) to the H-reflex electrode montage was applied bilaterally over the mastoid process in 19 healthy subjects. The P-AD's immediate post-GVS response (P Ipsi, P Contra) was also analyzed. Secondarily, we analyzed the excitability of the H-reflex during GVS. Responses evoked at 0.1 Hz with GVS, post-GVS, and a Control (no GVS) condition were used for comparisons. Our results show that P-AD persisted in all subjects despite increased excitability induced by GVS: statistical significance was found when comparing P-AD at 1, 5, and 10 Hz with the corresponding condition (Control, Ipsi, P Ipsi, Contra, P Contra) at 0.1 Hz (p < 0.001). Additionally, the increase in excitability produced by GVS was quantified for the first H-reflex of each P-AD stimulation frequency. The percentage change for all GVS conditions surpassed the Control by at least 20%, being statistically significant for Contra compared to Control (p < 0.01). In summary, although GVS increases the excitability of the vestibulospinal pathway at a premotor level, the neural inhibitory mechanism present in P-AD remains unaltered in healthy subjects.

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在健康受试者中,前庭电刺激不改变霍夫曼反射的激活后抑制。
理解受前庭输入影响的脊髓中相互作用的神经元素将有助于理解正常和病理条件下的运动执行。在这种情况下,霍夫曼反射(h反射)已被用于评估脊髓下降通路的短暂兴奋性变化。h反射的激活后抑制(P-AD)包括引起连续反应(> 1hz)引起振幅抑制,已被证明在病理条件下(即痉挛,糖尿病神经病变)减弱。前庭电刺激(Galvanic Vestibular Stimulation, GVS)是一种激活前庭传入神经的非侵入性方法,已被用于研究作为条件反射脉冲的h反射的兴奋性。据我们所知,没有报道评估GVS期间和之后的P-AD。我们的主要目的是确定GVS是否改变通过0.1、1、5和10 Hz刺激胫骨神经引起的P-AD,记录在腓肠肌和比目鱼肌中。对19例健康受试者的乳突进行了2.0±0.6 mA的正极同侧(Ipsi)或对侧(Contra) h反射电极蒙太奇直流电刺激。还分析了P- ad在gvs后的即时反应(P Ipsi, P Contra)。其次,我们分析了GVS时h反射的兴奋性。在0.1 Hz下,GVS、后GVS和对照(无GVS)条件下引起的反应被用于比较。我们的研究结果表明,尽管GVS引起的兴奋性增加,但所有受试者的P- ad都持续存在:将1、5和10 Hz的P- ad与0.1 Hz的相应条件(Control、Ipsi、P Ipsi、Contra、P Contra)进行比较,发现有统计学意义(P < 0.001)。此外,对每个P-AD刺激频率的第一次h反射,量化GVS产生的兴奋性增加。所有GVS条件的百分比变化超过对照组至少20%,与对照组相比,Contra具有统计学意义(p < 0.01)。综上所述,尽管GVS在运动前水平增加了前庭脊髓通路的兴奋性,但P-AD存在的神经抑制机制在健康受试者中保持不变。
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来源期刊
Frontiers in Integrative Neuroscience
Frontiers in Integrative Neuroscience Neuroscience-Cellular and Molecular Neuroscience
CiteScore
4.60
自引率
2.90%
发文量
148
审稿时长
14 weeks
期刊介绍: Frontiers in Integrative Neuroscience publishes rigorously peer-reviewed research that synthesizes multiple facets of brain structure and function, to better understand how multiple diverse functions are integrated to produce complex behaviors. Led by an outstanding Editorial Board of international experts, this multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians and the public worldwide. Our goal is to publish research related to furthering the understanding of the integrative mechanisms underlying brain functioning across one or more interacting levels of neural organization. In most real life experiences, sensory inputs from several modalities converge and interact in a manner that influences perception and actions generating purposeful and social behaviors. The journal is therefore focused on the primary questions of how multiple sensory, cognitive and emotional processes merge to produce coordinated complex behavior. It is questions such as this that cannot be answered at a single level – an ion channel, a neuron or a synapse – that we wish to focus on. In Frontiers in Integrative Neuroscience we welcome in vitro or in vivo investigations across the molecular, cellular, and systems and behavioral level. Research in any species and at any stage of development and aging that are focused at understanding integration mechanisms underlying emergent properties of the brain and behavior are welcome.
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