Interfaces of sleep and anesthesia.

[1]  N. L. Chamberlin,et al.  The ventrolateral preoptic nucleus is not required for isoflurane general anesthesia , 2011, Brain Research.

[2]  T. Kudo,et al.  Role of coerulean noradrenergic neurones in general anaesthesia in rats. , 2011, British journal of anaesthesia.

[3]  Emery N. Brown,et al.  Methylphenidate Actively Induces Emergence from General Anesthesia , 2011, Anesthesiology.

[4]  M. Kelz,et al.  Rapid Eye Movement Sleep Debt Accrues in Mice Exposed to Volatile Anesthetics , 2011, Anesthesiology.

[5]  J. Sleigh,et al.  The Association between Intraoperative Electroencephalogram-Based Measures and Pain Severity in the Post-Anaesthesia Care Unit , 2011, Anaesthesia and intensive care.

[6]  Karl J. Friston Functional and Effective Connectivity: A Review , 2011, Brain Connect..

[7]  G. Tononi,et al.  *Both authors contributed equally to this manuscript. , 2022 .

[8]  H. Haas,et al.  Cellular and Molecular Life Sciences REVIEW The waking brain: an update , 2022 .

[9]  M. Thakkar Histamine in the regulation of wakefulness. , 2011, Sleep medicine reviews.

[10]  G. Mashour,et al.  State-specific Effects of Sevoflurane Anesthesia on Sleep Homeostasis: Selective Recovery of Slow Wave but Not Rapid Eye Movement Sleep , 2011, Anesthesiology.

[11]  G. Tononi,et al.  Effects of anesthesia on the response to sleep deprivation. , 2010, Sleep.

[12]  J. Ye,et al.  Histamine regulates activities of neurons in the ventrolateral preoptic nucleus , 2010, The Journal of physiology.

[13]  M. Xi,et al.  The injection of hypocretin-1 into the nucleus pontis oralis induces either active sleep or wakefulness depending on the behavioral state when it is administered. , 2010, Sleep.

[14]  Y. Kayama,et al.  Locus coeruleus neuronal activity during the sleep-waking cycle in mice , 2010, Neuroscience.

[15]  G. Tononi Information integration: its relevance to brain function and consciousness. , 2010, Archives italiennes de biologie.

[16]  Q. C. Meng,et al.  A Conserved Behavioral State Barrier Impedes Transitions between Anesthetic-Induced Unconsciousness and Wakefulness: Evidence for Neural Inertia , 2010, PloS one.

[17]  H. Sakamoto,et al.  Microinjection of Propofol into the Perifornical Area Induces Sedation with Decreasing Cortical Acetylcholine Release in Rats , 2010, Anesthesia and analgesia.

[18]  UnCheol Lee,et al.  Isoflurane Anesthesia Does Not Satisfy the Homeostatic Need for Rapid Eye Movement Sleep , 2010, Anesthesia and analgesia.

[19]  E. Arrigoni,et al.  Activation of the basal forebrain by the orexin/hypocretin neurones , 2010, Acta physiologica.

[20]  G. Tononi,et al.  Breakdown in cortical effective connectivity during midazolam-induced loss of consciousness , 2010, Proceedings of the National Academy of Sciences.

[21]  J. Sleigh,et al.  Episodic Waveforms in the Electroencephalogram during General Anaesthesia: A Study of Patterns of Response to Noxious Stimuli , 2010, Anaesthesia and intensive care.

[22]  K. Krnjević,et al.  Propofol Facilitates Glutamatergic Transmission to Neurons of the Ventrolateral Preoptic Nucleus , 2009, Anesthesiology.

[23]  G. Aston-Jones,et al.  Halothane-induced Hypnosis Is Not Accompanied by Inactivation of Orexinergic Output in Rodents , 2009, Anesthesiology.

[24]  Tao Luo,et al.  Basal Forebrain Histaminergic Transmission Modulates Electroencephalographic Activity and Emergence from Isoflurane Anesthesia , 2009, Anesthesiology.

[25]  L. Xiong,et al.  Activation of orexin signal in basal forebrain facilitates the emergence from sevoflurane anesthesia in rat , 2009, Neuropeptides.

[26]  M. Maze,et al.  The Involvement of Hypothalamic Sleep Pathways in General Anesthesia: Testing the Hypothesis Using the GABAA Receptor β3N265M Knock-In Mouse , 2009, The Journal of Neuroscience.

[27]  M. Kudo,et al.  Orexin A Decreases Ketamine-Induced Anesthesia Time in the Rat: The Relevance to Brain Noradrenergic Neuronal Activity , 2009, Anesthesia and analgesia.

[28]  G. Tononi,et al.  Increased Volatile Anesthetic Requirement in Short-sleeping Drosophila Mutants , 2009, Anesthesiology.

[29]  R. Lydic,et al.  γ-Aminobutyric Acid–mediated Neurotransmission in the Pontine Reticular Formation Modulates Hypnosis, Immobility, and Breathing during Isoflurane Anesthesia , 2008, Anesthesiology.

[30]  Jun Lu,et al.  Role of endogenous sleep‐wake and analgesic systems in anesthesia , 2008, The Journal of comparative neurology.

[31]  H. Landolt Sleep homeostasis: a role for adenosine in humans? , 2008, Biochemical pharmacology.

[32]  K. Sakai,et al.  Neuronal activity of orexin and non-orexin waking-active neurons during wake–sleep states in the mouse , 2008, Neuroscience.

[33]  N. Franks General anaesthesia: from molecular targets to neuronal pathways of sleep and arousal , 2008, Nature Reviews Neuroscience.

[34]  R. Szymusiak,et al.  Hypothalamic Regulation of Sleep and Arousal , 2008, Annals of the New York Academy of Sciences.

[35]  M. Scheinin,et al.  Electroencephalogram spindle activity during dexmedetomidine sedation and physiological sleep , 2008, Acta anaesthesiologica Scandinavica.

[36]  Masashi Yanagisawa,et al.  An essential role for orexins in emergence from general anesthesia , 2008, Proceedings of the National Academy of Sciences.

[37]  Michael T Alkire,et al.  Thalamic Microinjection of Nicotine Reverses Sevoflurane-induced Loss of Righting Reflex in the Rat , 2007, Anesthesiology.

[38]  Jian-Sheng Lin,et al.  Neuronal Activity of Histaminergic Tuberomammillary Neurons During Wake–Sleep States in the Mouse , 2006, The Journal of Neuroscience.

[39]  T. Higuchi,et al.  Orexins Increase Cortical Acetylcholine Release and Electroencephalographic Activation through Orexin-1 Receptor in the Rat Basal Forebrain during Isoflurane Anesthesia , 2006, Anesthesiology.

[40]  Helen A. Baghdoyan,et al.  Sleep, Anesthesiology, and the Neurobiology of Arousal State Control , 2005, Anesthesiology.

[41]  G. Tononi,et al.  Breakdown of Cortical Effective Connectivity During Sleep , 2005, Science.

[42]  O. Hassani,et al.  Discharge of Identified Orexin/Hypocretin Neurons across the Sleep-Waking Cycle , 2005, The Journal of Neuroscience.

[43]  Jerome M. Siegel,et al.  Behavioral Correlates of Activity in Identified Hypocretin/Orexin Neurons , 2005, Neuron.

[44]  W. Mendelson,et al.  Effect of Sleep Deprivation on Righting Reflex in the Rat Is Partially Reversed by Administration of Adenosine A1 and A2 Receptor Antagonists , 2005, Anesthesiology.

[45]  Giulio Tononi,et al.  Reduced sleep in Drosophila Shaker mutants , 2005, Nature.

[46]  H. Baghdoyan,et al.  GABAA receptors inhibit acetylcholine release in cat pontine reticular formation: implications for REM sleep regulation. , 2004, Journal of neurophysiology.

[47]  Y. Urade,et al.  Extracellular histamine level in the frontal cortex is positively correlated with the amount of wakefulness in rats , 2004, Neuroscience Research.

[48]  Dingcai Cao,et al.  Recovery from Sleep Deprivation Occurs during Propofol Anesthesia , 2004, Anesthesiology.

[49]  R. Szymusiak,et al.  Activation of c‐fos in GABAergic neurones in the preoptic area during sleep and in response to sleep deprivation , 2004, The Journal of physiology.

[50]  T. Higuchi,et al.  Orexin A Elicits Arousal Electroencephalography Without Sympathetic Cardiovascular Activation in Isoflurane-Anesthetized Rats , 2003, Anesthesia and analgesia.

[51]  M. Kudo,et al.  Orexinergic neurons and barbiturate anesthesia , 2003, Neuroscience.

[52]  G. Plourde,et al.  Antagonism of sevoflurane anaesthesia by physostigmine: effects on the auditory steady-state response and bispectral index. , 2003, British journal of anaesthesia.

[53]  G. Vanni-Mercier,et al.  Waking selective neurons in the posterior hypothalamus and their response to histamine H3-receptor ligands: an electrophysiological study in freely moving cats , 2003, Behavioural Brain Research.

[54]  M. Steriade The corticothalamic system in sleep. , 2003, Frontiers in bioscience : a journal and virtual library.

[55]  Jun Lu,et al.  The &agr;2-Adrenoceptor Agonist Dexmedetomidine Converges on an Endogenous Sleep-promoting Pathway to Exert Its Sedative Effects , 2003, Anesthesiology.

[56]  Avery Tung,et al.  Sleep Deprivation Potentiates the Onset and Duration of Loss of Righting Reflex Induced by Propofol and Isoflurane , 2002, Anesthesiology.

[57]  T. Guo,et al.  The sedative component of anesthesia is mediated by GABAA receptors in an endogenous sleep pathway , 2002, Nature Neuroscience.

[58]  R. Lydic,et al.  Ketamine and MK-801 decrease acetylcholine release in the pontine reticular formation, slow breathing, and disrupt sleep. , 2002, Sleep.

[59]  R. McCarley,et al.  Extracellular histamine levels in the feline preoptic/anterior hypothalamic area during natural sleep–wakefulness and prolonged wakefulness: An in vivo microdialysis study , 2002, Neuroscience.

[60]  R. Szymusiak,et al.  Sleep‐waking discharge patterns of median preoptic nucleus neurons in rats , 2002, The Journal of physiology.

[61]  W. Mendelson,et al.  Prolonged Sedation with Propofol in the Rat Does Not Result in Sleep Deprivation , 2001, Anesthesia and analgesia.

[62]  R. Szymusiak,et al.  Sleep-related c-Fos protein expression in the preoptic hypothalamus: effects of ambient warming. , 2000, American journal of physiology. Regulatory, integrative and comparative physiology.

[63]  P Fiset,et al.  Physostigmine reverses propofol-induced unconsciousness and attenuation of the auditory steady state response and bispectral index in human volunteers. , 2000, Anesthesiology.

[64]  D. Bayliss,et al.  The TASK-1 Two-Pore Domain K+ Channel Is a Molecular Substrate for Neuronal Effects of Inhalation Anesthetics , 2000, The Journal of Neuroscience.

[65]  Dennis McGinty,et al.  Sleep–waking discharge patterns of ventrolateral preoptic/anterior hypothalamic neurons in rats , 1998, Brain Research.

[66]  Y. Yamamoto,et al.  Interactions Between Neuronal Histamine and Halothane Anesthesia in Rats , 1997, Journal of neurochemistry.

[67]  Kinzo Matsumoto,et al.  Flumazenil but not FG7142 reverses the decrease in pentobarbital sleep caused by activation of central noradrenergic systems in mice , 1997, Brain Research.

[68]  R. Lydic,et al.  Pontine Cholinergic Mechanisms Modulate the Cortical Electroencephalographic Spindles of Halothane Anesthesia , 1996, Anesthesiology.

[69]  R. McCarley,et al.  Activation of Ventrolateral Preoptic Neurons During Sleep , 1996, Science.

[70]  R. Lydic,et al.  Sleep neurobiology: relevance for mechanistic studies of anaesthesia. , 1994, British journal of anaesthesia.

[71]  Mervyn Maze,et al.  A Hypnotic Response to Dexmedetomidine, an α2 Agonist, Is Mediated in the Locus Coerüleus in Rats , 1992 .

[72]  E. Rose,et al.  Anesthesia with abdominal surgery leads to intense REM sleep during the first postoperative week. , 1990, Anesthesiology.

[73]  R. Knill,et al.  Isoflurane Anesthesia Causes a Transient Alteration in Nocturnal Sleep , 1988, Anesthesiology.

[74]  M. Alexander,et al.  Principles of Neural Science , 1981 .

[75]  S. T. Mason,et al.  Anaesthesia: the role of adrenergic mechanisms. , 1983, European journal of pharmacology.

[76]  P. Kalivas Histamine-induced arousal in the conscious and pentobarbital-pretreated rat. , 1982, The Journal of pharmacology and experimental therapeutics.

[77]  F. Bloom,et al.  Activity of norepinephrine-containing locus coeruleus neurons in behaving rats anticipates fluctuations in the sleep-waking cycle , 1981, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[78]  C. Economo SLEEP AS A PROBLEM OF LOCALIZATION , 1930 .

[79]  D. Gozal,et al.  In the fight against advanced glycation end-products (AGEs), you should treat OSA, shouldn't you? , 2012, Sleep medicine.

[80]  N. Punjabi,et al.  "REM-related" obstructive sleep apnea: an epiphenomenon or a clinically important entity? , 2012, Sleep.

[81]  B. Jones,et al.  Neurobiology of waking and sleeping. , 2011, Handbook of clinical neurology.

[82]  V. Somers,et al.  Cardiovascular and cerebrovascular physiology in sleep. , 2011, Handbook of clinical neurology.

[83]  A. Chesson,et al.  The American Academy of Sleep Medicine (AASM) Manual for the Scoring of Sleep and Associated Events: Rules, Terminology and Technical Specifications , 2007 .

[84]  Tarmo Lipping,et al.  Comparison of the Properties of EEG Spindles in Sleep and Propofol Anesthesia , 2006, 2006 International Conference of the IEEE Engineering in Medicine and Biology Society.

[85]  R. Lydic,et al.  Halothane decreases pontine acetylcholine release and increases EEG spindles. , 1994, Neuroreport.