Time-dependent phrenic nerve responses to carotid afferent activation: intact vs. decerebellate rats.
about
Breathing: rhythmicity, plasticity, chemosensitivityHypoxia-induced phrenic long-term facilitation: emergent propertiesPontine mechanisms of respiratory controlLong term facilitation of respiratory motor output decreases with age in male ratsMorphine has latent deleterious effects on the ventilatory responses to a hypoxic challenge.Water deprivation activates a glutamatergic projection from the hypothalamic paraventricular nucleus to the rostral ventrolateral medulla.Glossopharyngeal long-term facilitation requires serotonin 5-HT2 and NMDA receptors in rats.Effect of episodic hypoxia on the susceptibility to hypocapnic central apnea during NREM sleep.Episodic but not continuous hypoxia elicits long-term facilitation of phrenic motor output in rats.An interdependent model of central/peripheral chemoreception: evidence and implications for ventilatory control.Sleep state dependence of ventilatory long-term facilitation following acute intermittent hypoxia in Lewis rats.The hypoxic ventilatory response and ventilatory long-term facilitation are altered by time of day and repeated daily exposure to intermittent hypoxiaCarotid chemoafferent activity is not necessary for all phrenic long-term facilitation following acute intermittent hypoxiaInvited review: Intermittent hypoxia and respiratory plasticity.Experimental protocols and preparations to study respiratory long term facilitationNeuroplasticity in respiratory motor control.Therapeutic potential of intermittent hypoxia: a matter of dose.Invited review: Mechanisms underlying motor unit plasticity in the respiratory system.Invited review: Neural network plasticity in respiratory control.Acute intermittent optogenetic stimulation of nucleus tractus solitarius neurons induces sympathetic long-term facilitation.Similarities and differences in mechanisms of phrenic and hypoglossal motor facilitation.Phrenic long-term facilitation requires PKCθ activity within phrenic motor neurons.Impact of repeated daily exposure to intermittent hypoxia and mild sustained hypercapnia on apnea severitySevere acute intermittent hypoxia elicits phrenic long-term facilitation by a novel adenosine-dependent mechanism.Effect of spinal cord injury on the respiratory system: basic research and current clinical treatment options.Intermittent hypoxia and neurorehabilitation.Homeostasis of exercise hyperpnea and optimal sensorimotor integration: the internal model paradigmLong-term facilitation of genioglossus activity is present in normal humans during NREM sleepDeterminants of frequency long-term facilitation following acute intermittent hypoxia in vagotomized rats.Chapter 3--networks within networks: the neuronal control of breathing.Inactivity-induced phrenic and hypoglossal motor facilitation are differentially expressed following intermittent vs. sustained neural apnea.Formation and maintenance of ventilatory long-term facilitation require NMDA but not non-NMDA receptors in awake rats.Impact of intermittent hypoxia on long-term facilitation of minute ventilation and heart rate variability in men and women: do sex differences exist?Long-term facilitation of expiratory and sympathetic activities following acute intermittent hypoxia in rats.Time Domains of the Hypoxic Ventilatory Response and Their Molecular Basis.Reactive oxygen species and respiratory plasticity following intermittent hypoxia.Serotonin and NMDA receptors in respiratory long-term facilitation.Intermittent hypoxia, respiratory plasticity and sleep apnea in humans: present knowledge and future investigations.Effects of baroreceptor activation on respiratory variability in rat.Lateral parabrachial nucleus mediates shortening of expiration during hypoxia
P2860
Q24657824-0A8C6CD0-B209-45B0-ADB8-F957F273C9B8Q26864573-8DE5DF3C-A7A5-4823-9614-6F7C9CA390C2Q26866162-91FA03C6-926D-4542-9B43-624D8218D9B1Q28356396-72C51F82-8B18-4B6D-AB17-EE8AC4AE1CEDQ30411852-4C17F487-408D-4B65-B3E2-2EE008F8C66DQ30436344-DCA0433C-23E4-46BB-8022-3F39410EE0DDQ33643180-90124F9C-CA29-4D6A-B313-A3D9C96F774CQ33656686-82037222-1665-4C5F-97A4-A001D5CADAFDQ33925442-2877824E-8B4A-4266-9E4B-22E0D8133B85Q33949678-85FF103E-78B9-47CE-B1FF-A15350D256EFQ34085539-51C3C719-A25B-42E8-8ABE-9F75D0A91F28Q34132243-7510FFA4-9C89-4BEC-ABAD-312E8FCAF1A1Q34150939-2F8CD840-6A4D-4345-A239-0DC8812E0BB3Q34253397-F3062ECF-422D-4C4A-8DC5-BC1DBC236288Q34663312-16B1B05C-0C40-419A-B089-117572512956Q35027281-6BCCC825-B2FF-440F-BB35-222C80117DD9Q35043452-5A8F0DBB-FBE2-4935-9C98-AB7CA393BA76Q35061538-C5803FAC-5C80-4D35-BA89-4E31913C2749Q35061542-2E415408-E9FB-4DF2-9068-117DCD583D68Q35086373-9CD373DB-3416-4727-9068-15AED40AF3D0Q35242488-35CD676E-B675-4C10-A4D0-D886B2EA66EEQ35649463-9E5A5AB3-E0A2-47DA-897D-8EDC2ACBFE69Q35787447-DCAFED1E-350D-4B18-A22F-43FEFA595B1BQ36001958-07413E89-9AB5-4851-84A1-FFF5D88F0243Q36076552-D16B5098-6A81-4387-A34C-E6808D873145Q36382232-47F42599-6042-42FC-99AF-6C6DDA74AE4FQ36426554-C406B20C-2AE9-4975-A66B-656D091F53B1Q36517352-58AE916A-BE8D-4850-9812-4D6771EC001EQ36824926-BA32F863-1A52-48C1-9DD4-E63920A817ACQ36838975-72795011-C836-4294-B534-C664C4A7F0C8Q36850754-0522C78E-FF69-47C8-901D-35648481DB9AQ36877447-2D959EE8-959A-474E-BF2A-F83F87CBDB16Q36942328-828419AA-E1DA-46BD-998C-02A97983C61CQ36999255-254480AA-9EB3-4D66-94D1-8A3286DA7866Q37069679-34B171A3-7530-4E98-A547-1E1DD29343C8Q37097685-593F439F-D770-41EB-A5C3-AD0CEC7F1AA6Q37124514-1A5B0B00-7EE4-41D1-803A-0E586F024E91Q37179232-005FC981-EB91-4288-B5C4-5BEB500C0E22Q37188594-B88E0135-4732-4E38-9151-1347CCFCB4F4Q37218642-94D5C9DF-8EB8-434A-93C6-A928694B2AC7
P2860
Time-dependent phrenic nerve responses to carotid afferent activation: intact vs. decerebellate rats.
description
1993 nî lūn-bûn
@nan
1993 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1993 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
1993年の論文
@ja
1993年論文
@yue
1993年論文
@zh-hant
1993年論文
@zh-hk
1993年論文
@zh-mo
1993年論文
@zh-tw
1993年论文
@wuu
name
Time-dependent phrenic nerve r ...... intact vs. decerebellate rats.
@ast
Time-dependent phrenic nerve r ...... intact vs. decerebellate rats.
@en
Time-dependent phrenic nerve r ...... intact vs. decerebellate rats.
@nl
type
label
Time-dependent phrenic nerve r ...... intact vs. decerebellate rats.
@ast
Time-dependent phrenic nerve r ...... intact vs. decerebellate rats.
@en
Time-dependent phrenic nerve r ...... intact vs. decerebellate rats.
@nl
prefLabel
Time-dependent phrenic nerve r ...... intact vs. decerebellate rats.
@ast
Time-dependent phrenic nerve r ...... intact vs. decerebellate rats.
@en
Time-dependent phrenic nerve r ...... intact vs. decerebellate rats.
@nl
P2093
P1476
Time-dependent phrenic nerve r ...... intact vs. decerebellate rats.
@en
P2093
D R McCrimmon
G S Mitchell
P304
P356
10.1152/AJPREGU.1993.265.4.R811
P407
P433
P577
1993-10-01T00:00:00Z