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节律性咀嚼中枢定时的证据。

Evidence for central timing of rhythmical mastication.

作者信息

Dellow P G, Lund J P

出版信息

J Physiol. 1971 May;215(1):1-13. doi: 10.1113/jphysiol.1971.sp009454.

DOI:10.1113/jphysiol.1971.sp009454
PMID:5579653
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1331863/
Abstract
  1. The origin of the co-ordination and rhythm of mastication provoked by electrical stimulation of the putamen and corticobulbar pathways was studied in the rabbit.2. Bursts of activity were recorded from the mandibular and hypoglossal nerves and the hypoglossal nucleus, which were in phase with the observed masticatory movements. Discharges occurred alternately in nerves to jaw-opening and jaw-closing muscles.3. The rate of burst discharges was not altered by paralysis, or by large variations in the stimulation frequency.4. Regularly recurring bursts of activity continued to occur in the hypoglossal nucleus in response to random frequency stimulation after severing branchial nerves, cervical nerves and the spinal cord of paralysed rabbits.5. Mechanical deformation of the brain of vascular or respiratory origin was discounted as the origin of the rhythm.6. It is concluded that mastication is controlled by a brain-stem pattern generator which can be activated by adequate inputs from certain higher centres and, as concluded in other studies, from the oral cavity itself.
摘要

  1. 研究了电刺激兔壳核和皮质延髓通路所引发的咀嚼协调性和节律的起源。

  2. 记录到下颌神经、舌下神经及舌下神经核的活动爆发,这些活动与观察到的咀嚼运动同步。向开颌肌和闭颌肌的神经放电交替出现。

  3. 爆发性放电的频率不因麻痹或刺激频率的大幅变化而改变。

  4. 在切断麻痹兔的鳃神经、颈神经和脊髓后,对舌下神经核进行随机频率刺激时,仍会有规律地反复出现活动爆发。

  5. 排除了血管源性或呼吸源性脑机械变形作为节律起源的可能性。

  6. 得出的结论是,咀嚼由脑干模式发生器控制,该发生器可被某些高级中枢的适当输入激活,并且如其他研究所得出的结论,也可被口腔自身激活。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a755/1331863/c927b6e58a70/jphysiol01023-0026-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a755/1331863/17b63776676a/jphysiol01023-0024-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a755/1331863/c927b6e58a70/jphysiol01023-0026-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a755/1331863/17b63776676a/jphysiol01023-0024-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a755/1331863/c927b6e58a70/jphysiol01023-0026-a.jpg

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The cortical paths for mastication and deglutition.咀嚼和吞咽的皮质传导通路。
J Physiol. 1920 May 18;53(6):473-8. doi: 10.1113/jphysiol.1920.sp001893.
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Reflexes elicitable in the cat from pinna vibrissae and jaws.在猫身上可通过耳廓触须和颌部引出的反射。
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Further observations on the production of reflex stepping by combination of reflex excitation with reflex inhibition.关于通过反射兴奋与反射抑制相结合产生反射性踏步的进一步观察。
通过电磁发音分析法进行咀嚼分析:当前的发展和新的可能性。
Sensors (Basel). 2023 Nov 30;23(23):9511. doi: 10.3390/s23239511.
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Three-dimensional mandibular kinematics of mastication in the marsupial .咀嚼运动中食虫目动物下颌的三维运动学。
Philos Trans R Soc Lond B Biol Sci. 2023 Dec 4;378(1891):20220548. doi: 10.1098/rstb.2022.0548. Epub 2023 Oct 16.
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Rhythmic chew cycles with distinct fast and slow phases are ancestral to gnathostomes.节律性咀嚼循环具有明显的快相和慢相,是有颌类的祖征。
Philos Trans R Soc Lond B Biol Sci. 2023 Dec 4;378(1891):20220539. doi: 10.1098/rstb.2022.0539. Epub 2023 Oct 16.
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Application of numerical simulation studies to determine dynamic loads acting on the human masticatory system during unilateral chewing of selected foods.应用数值模拟研究来确定在单侧咀嚼特定食物期间作用于人体咀嚼系统的动态载荷。
Front Bioeng Biotechnol. 2023 May 11;11:993274. doi: 10.3389/fbioe.2023.993274. eCollection 2023.
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Food Hardness Modulates Behavior, Cognition, and Brain Activation: A Systematic Review of Animal and Human Studies.食物硬度调节行为、认知和大脑激活:动物和人类研究的系统评价。
Nutrients. 2023 Feb 25;15(5):1168. doi: 10.3390/nu15051168.
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Demonstration of chewing-related areas in the brain via functional magnetic resonance imaging.通过功能磁共振成像显示大脑中与咀嚼相关的区域。
Pol J Radiol. 2023 Jan 31;88:e65-e74. doi: 10.5114/pjr.2023.124756. eCollection 2023.
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