AIR Hunger-Why Amygdala Seizures Suppress Breathing.
作者信息
Metcalf Cameron S
机构信息
Department of Pharmacology and Toxicology, University of Utah.
出版信息
Epilepsy Curr. 2024 Feb 6;24(2):132-134. doi: 10.1177/15357597241228476. eCollection 2024 Mar-Apr.
Abstract
摘要
相似文献
1
AIR Hunger-Why Amygdala Seizures Suppress Breathing.空气饥饿——为何杏仁核癫痫发作会抑制呼吸。
Epilepsy Curr. 2024 Feb 6;24(2):132-134. doi: 10.1177/15357597241228476. eCollection 2024 Mar-Apr.
2
Failure to breathe persists without air hunger or alarm following amygdala seizures.杏仁核发作后,在没有空气饥饿或警报的情况下持续无法呼吸。
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Self-control of level of mechanical ventilation to minimize CO2 induced air hunger.自控机械通气水平以尽量减少二氧化碳引起的空气饥饿感。
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4
Breathing Inhibited When Seizures Spread to the Amygdala and upon Amygdala Stimulation.当癫痫发作扩散至杏仁核以及对杏仁核进行刺激时,呼吸会受到抑制。
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Brain responses associated with consciousness of breathlessness (air hunger).与呼吸急促(空气饥饿)意识相关的大脑反应。
Proc Natl Acad Sci U S A. 2001 Feb 13;98(4):2035-40. doi: 10.1073/pnas.98.4.2035.
6
The perception of respiratory work and effort can be independent of the perception of air hunger.对呼吸功和用力的感知可能独立于对空气饥饿的感知。
Am J Respir Crit Care Med. 2000 Nov;162(5):1690-6. doi: 10.1164/ajrccm.162.5.9907096.
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Hunger is the best spice: an fMRI study of the effects of attention, hunger and calorie content on food reward processing in the amygdala and orbitofrontal cortex.饥饿是最好的调味品:一项关于注意力、饥饿和卡路里含量对杏仁核和眶额皮质中食物奖励加工影响的功能磁共振成像研究。
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Inhaled furosemide for relief of air hunger versus sense of breathing effort: a randomized controlled trial.吸入呋塞米缓解气促与呼吸费力感:一项随机对照试验。
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Coughing induced by airway irritation modulates the sensation of air hunger.气道刺激引起的咳嗽会调节空气饥饿感。
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Interactions Between Dyspnea and the Brain Processing of Nociceptive Stimuli: Experimental Air Hunger Attenuates Laser-Evoked Brain Potentials in Humans.呼吸困难与伤害性刺激的脑处理之间的相互作用:实验性空气饥饿减弱人类激光诱发的脑电位。
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本文引用的文献
1
Failure to breathe persists without air hunger or alarm following amygdala seizures.杏仁核发作后,在没有空气饥饿或警报的情况下持续无法呼吸。
JCI Insight. 2023 Nov 22;8(22):e172423. doi: 10.1172/jci.insight.172423.
2
Forebrain control of breathing: Anatomy and potential functions.前脑对呼吸的控制:解剖结构与潜在功能。
Front Neurol. 2022 Nov 1;13:1041887. doi: 10.3389/fneur.2022.1041887. eCollection 2022.
3
Monosynaptic Projections to Excitatory and Inhibitory preBötzinger Complex Neurons.向兴奋性和抑制性前包钦格复合体神经元的单突触投射
Front Neuroanat. 2020 Sep 4;14:58. doi: 10.3389/fnana.2020.00058. eCollection 2020.
4
A human amygdala site that inhibits respiration and elicits apnea in pediatric epilepsy.人类杏仁核中可抑制呼吸并引发小儿癫痫患者呼吸暂停的部位
JCI Insight. 2020 Mar 26;5(6):134852. doi: 10.1172/jci.insight.134852.
5
Amygdala lesions reduce seizure-induced respiratory arrest in DBA/1 mice.杏仁核损伤可减少 DBA/1 小鼠癫痫发作引起的呼吸暂停。
Epilepsy Behav. 2021 Aug;121(Pt B):106440. doi: 10.1016/j.yebeh.2019.07.041. Epub 2019 Aug 6.
6
The effect of seizure spread to the amygdala on respiration and onset of ictal central apnea.癫痫发作扩散至杏仁核对呼吸及发作性中枢性呼吸暂停起始的影响。
J Neurosurg. 2019 Apr 5;132(5):1313-1323. doi: 10.3171/2019.1.JNS183157. Print 2020 May 1.
7
The interdependence of excitation and inhibition for the control of dynamic breathing rhythms.兴奋和抑制的相互依存关系控制动态呼吸节律。
Nat Commun. 2018 Feb 26;9(1):843. doi: 10.1038/s41467-018-03223-x.
8
A novel excitatory network for the control of breathing.一种用于控制呼吸的新型兴奋性神经网络。
Nature. 2016 Aug 4;536(7614):76-80. doi: 10.1038/nature18944. Epub 2016 Jul 27.
9
Incidence and mechanisms of cardiorespiratory arrests in epilepsy monitoring units (MORTEMUS): a retrospective study.癫痫监测单元中心跳呼吸骤停的发生率和机制(MORTEMUS):一项回顾性研究。
Lancet Neurol. 2013 Oct;12(10):966-77. doi: 10.1016/S1474-4422(13)70214-X. Epub 2013 Sep 4.
10
Risk factors in sudden death in epilepsy (SUDEP): the quest for mechanisms.癫痫猝死(SUDEP)的危险因素:对发病机制的探索。
Epilepsia. 2007 May;48(5):859-71. doi: 10.1111/j.1528-1167.2007.01082.x. Epub 2007 Apr 13.
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