The role of spiking and bursting pacemakers in the neuronal control of breathing
about
The integrative role of the sigh in psychology, physiology, pathology, and neurobiology.Microcircuits in respiratory rhythm generation: commonalities with other rhythm generating networks and evolutionary perspectives.Mouse activity across time scales: fractal scenariosRespiratory rhythm generation in vivo.Lognormal firing rate distribution reveals prominent fluctuation-driven regime in spinal motor networksRespiratory neuron characterization reveals intrinsic bursting properties in isolated adult turtle brainstems (Trachemys scripta).Cycle-by-cycle assembly of respiratory network activity is dynamic and stochastic.Stable respiratory activity requires both P/Q-type and N-type voltage-gated calcium channels.Understanding the rhythm of breathing: so near, yet so far.The cellular building blocks of breathingDevelopment of pacemaker properties and rhythmogenic mechanisms in the mouse embryonic respiratory network.Breathing challenges in Rett syndrome: lessons learned from humans and animal models.When norepinephrine becomes a driver of breathing irregularities: how intermittent hypoxia fundamentally alters the modulatory response of the respiratory network.Respiratory rhythm generation: triple oscillator hypothesis.Modeling the effects of extracellular potassium on bursting properties in pre-Bötzinger complex neurons.Physiological and morphological properties of Dbx1-derived respiratory neurons in the pre-Botzinger complex of neonatal mice.β-Noradrenergic receptor activation specifically modulates the generation of sighs in vivo and in vitro.A codimension-2 bifurcation controlling endogenous bursting activity and pulse-triggered responses of a neuron model.Cooperation of intrinsic bursting and calcium oscillations underlying activity patterns of model pre-Bötzinger complex neurons.Neuronal Population Activity in Spinal Motor Circuits: Greater Than the Sum of Its Parts.The Onset of the Fetal Respiratory Rhythm: An Emergent Property Triggered by Chemosensory Drive?Different roles for inhibition in the rhythm-generating respiratory network.Prostaglandin E2 differentially modulates the central control of eupnoea, sighs and gasping in mice.Transient Receptor Potential Channels TRPM4 and TRPC3 Critically Contribute to Respiratory Motor Pattern Formation but not Rhythmogenesis in Rodent Brainstem Circuits.Relationship in Pacemaker Neurons Between the Long-Term Correlations of Membrane Voltage Fluctuations and the Corresponding Duration of the Inter-Spike Interval.
P2860
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P2860
The role of spiking and bursting pacemakers in the neuronal control of breathing
description
2011 nî lūn-bûn
@nan
2011 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի մարտին հրատարակված գիտական հոդված
@hy
2011年の論文
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2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
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name
The role of spiking and bursting pacemakers in the neuronal control of breathing
@ast
The role of spiking and bursting pacemakers in the neuronal control of breathing
@en
type
label
The role of spiking and bursting pacemakers in the neuronal control of breathing
@ast
The role of spiking and bursting pacemakers in the neuronal control of breathing
@en
prefLabel
The role of spiking and bursting pacemakers in the neuronal control of breathing
@ast
The role of spiking and bursting pacemakers in the neuronal control of breathing
@en
P2093
P2860
P1476
The role of spiking and bursting pacemakers in the neuronal control of breathing
@en
P2093
Alfredo J Garcia
Atsushi Doi
Henner Koch
Sebastien Zanella
P2860
P2888
P304
P356
10.1007/S10867-011-9214-Z
P577
2011-03-22T00:00:00Z