The effects of four hours of normobaric hypoxia on the vestibular control of balance.

IF 1.7 4区 医学 Q4 NEUROSCIENCES Experimental Brain Research Pub Date : 2024-10-01 Epub Date: 2024-08-15 DOI:10.1007/s00221-024-06905-9
M I B Debenham, C B Bruce, C J McNeil, B H Dalton
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Abstract

Whole-body vestibular-evoked balance responses decrease following ~ 55 min of normobaric hypoxia. It is unclear how longer durations of hypoxia affect the vestibular control of balance at the muscle and whole-body levels. This study examined how four hours of normobaric hypoxia influenced the vestibular control of balance. Fifteen participants (4 females; 11 males) stood on a force plate with vision occluded and head rotated rightward while subjected to three blocks of binaural, bipolar stochastic electrical vestibular stimulation (EVS; 0-25 Hz, root mean square amplitude = 1.1 mA) consisting of two, 90-s trials. The relationship between EVS and anteroposterior (AP) forces or medial gastrocnemius (MG) electromyography (EMG) was estimated in the time and frequency domains at baseline (BL; 0.21 fraction of inspired oxygen-FIO2) and following two (H2) and four (H4) hours of normobaric hypoxia (0.11 FIO2). The EVS-MG EMG short-latency peak and peak-to-peak amplitudes were smaller than BL at H2 and H4, but the medium-latency peak amplitude was only lower at H4. The EVS-AP force medium-latency peak amplitude was lower than BL at H4, but the short-latency peak and peak-to-amplitudes were unchanged. The EVS-MG EMG coherence and gain were reduced compared to BL at H2 and H4 across multiple frequencies ≥ 7 Hz, whereas EVS-AP force coherence was blunted at H4 (≤ 4 Hz), but gain was unaffected. Overall, the central nervous system's response to vestibular-driven signals during quiet standing was decreased for up to four hours of normobaric hypoxia, and vestibular-evoked responses recorded within postural muscles may be more sensitive than the whole-body response.

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四小时常压缺氧对前庭控制平衡的影响。
常压缺氧约 55 分钟后,全身前庭诱发的平衡反应会降低。目前还不清楚更长时间的缺氧对肌肉和全身平衡的前庭控制有何影响。本研究考察了四小时常压缺氧对前庭平衡控制的影响。15 名参与者(4 名女性;11 名男性)站在受力板上,视线被遮挡,头部向右旋转,同时接受三个组的双耳双极随机前庭电刺激(EVS;0-25 Hz,均方根振幅 = 1.1 mA),包括两次 90 秒的试验。在基线(BL;0.21%的吸入氧-FIO2)以及常压缺氧(0.11%的吸入氧-FIO2)两小时(H2)和四小时(H4)后,对EVS与前胸(AP)力或内侧腓肠肌(MG)肌电图(EMG)之间的时域和频域关系进行了估计。在 H2 和 H4 时,EVS-MG 肌电图的短频率峰值和峰间振幅均小于 BL,但中频率峰值振幅仅在 H4 时较低。EVS-AP 肌力的中频峰振幅在 H4 时低于 BL,但短频峰振幅和峰间振幅保持不变。在 H2 和 H4 的多个频率(≥ 7 Hz)上,EVS-MG 肌电图相干性和增益均低于 BL,而 EVS-AP 肌电图相干性在 H4(≤ 4 Hz)时减弱,但增益未受影响。总体而言,在长达四小时的常压缺氧条件下,中枢神经系统对安静站立时前庭驱动信号的反应有所下降,而在姿势肌内记录到的前庭诱发反应可能比全身反应更敏感。
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来源期刊
CiteScore
3.60
自引率
5.00%
发文量
228
审稿时长
1 months
期刊介绍: Founded in 1966, Experimental Brain Research publishes original contributions on many aspects of experimental research of the central and peripheral nervous system. The focus is on molecular, physiology, behavior, neurochemistry, developmental, cellular and molecular neurobiology, and experimental pathology relevant to general problems of cerebral function. The journal publishes original papers, reviews, and mini-reviews.
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