Non-nutritive swallowing and respiration coordination among states of alertness in adult sheep.

The Journal of otolaryngology Pub Date : 2007-06-01 DOI:10.2310/7070.2007.0022

S. Roberge, N. Samson, Stephanie S Dorion, D. Dorion, J. Praud

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引用次数: 6

Abstract

Swallowing is a powerful inhibitor of respiration. Its coordination with respiration is therefore crucial to avoid aspiration and apnea. The aim of this study was to determine the coordination between non-nutritive swallowing (NNS) and phases of the respiratory cycle, including the assessment of the effect of states of alertness in adult sheep. Six animals were surgically instrumented under general anesthesia to record electroencephalography, electro-oculography (state of alertness), diaphragmatic electromyography (EMG), nasal flow (respiration), esophageal EMG, and the thyroarytenoid muscle (NNS). Our results revealed that (1) the highest NNS frequency is observed in rapid eye movement (REM) sleep, especially for bursts of NNS; (2) while NNS begins mainly during inspiration in all states of alertness, REM sleep, however, is responsible for an increase in the proportion of NNS beginning in expiration; (3) the link between inspiration and NNS is not affected by rumination. In conclusion, the link between NNS and inspiration in adult sheep is similar to that of lambs but contrary to previous reports on NNS induced by water in humans. Whether these differences are related to interspecies differences or the experimental techniques clearly needs further studies on spontaneous NNS in humans.

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成年羊警觉状态下非营养性吞咽和呼吸协调。

吞咽是呼吸的有力抑制剂。因此，它与呼吸的协调对于避免误吸和呼吸暂停至关重要。本研究的目的是确定非营养性吞咽(NNS)与呼吸循环阶段之间的协调，包括评估成年羊的警觉状态的影响。6只动物在全身麻醉下手术记录脑电图、眼电图(警觉状态)、膈肌电图(EMG)、鼻流(呼吸)、食管肌电图和甲状腺样肌(NNS)。研究结果表明:(1)在快速眼动(REM)睡眠时，神经网络信号频率最高，尤其是在神经网络信号爆发时;(2)在所有清醒状态下，NNS主要在吸气时开始，而REM睡眠导致NNS在呼气时开始的比例增加;(3)灵感与神经网络之间的联系不受反刍的影响。综上所述，成年羊的神经神经刺激与灵感之间的联系与羔羊相似，但与之前关于水诱发人类神经神经刺激的报道相反。这些差异是否与种间差异或实验技术有关，显然需要进一步对人类自发神经网络进行研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Journal of otolaryngology

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