Corticothalamic feedback controls sleep spindle duration in vivo - Wikidata - wikimedia - TriplyDB

Corticothalamic feedback controls sleep spindle duration in vivo

Corticothalamic feedback controls sleep spindle duration in vivo

http://www.wikidata.org/entity/Q35091550

about

Sleep Spindles as an Electrographic Element: Description and Automatic Detection Methods Spindle Activity Orchestrates Plasticity during Development and Sleep Form and Function of Sleep Spindles across the Lifespan The Contribution of Thalamocortical Core and Matrix Pathways to Sleep Spindles Timing matters: open-loop stimulation does not improve overnight consolidation of word pairs in humans.A Thalamocortical Neural Mass Model of the EEG during NREM Sleep and Its Response to Auditory Stimulation.Driving sleep slow oscillations by auditory closed-loop stimulation-a self-limiting process.Neural correlates of the age-related changes in motor sequence learning and motor adaptation in older adults.NREM Sleep Oscillations and Brain Plasticity in Aging Coordination of cortical and thalamic activity during non-REM sleep in humans.Ongoing network state controls the length of sleep spindles via inhibitory activity.Synchronization of isolated downstates (K-complexes) may be caused by cortically-induced disruption of thalamic spindling.Spindle power is not affected after spontaneous K-complexes during human NREM sleep.Sleep spindles in humans: insights from intracranial EEG and unit recordings Control of sleep-to-wake transitions via fast aminoacid and slow neuropeptide transmission Inter-expert and intra-expert reliability in sleep spindle scoring.The involvement of noradrenaline in rapid eye movement sleep mentation.Interactions between core and matrix thalamocortical projections in human sleep spindle synchronization.Expert and crowd-sourced validation of an individualized sleep spindle detection method employing complex demodulation and individualized normalization Modulation of circuit feedback specifies motor circuit output.Astrocyte regulation of sleep circuits: experimental and modeling perspectives.Thalamic model of awake alpha oscillations and implications for stimulus processing Developmental Changes in Sleep Spindle Characteristics and Sigma Power across Early Childhood Differential effects on fast and slow spindle activity, and the sleep slow oscillation in humans with carbamazepine and flunarizine to antagonize voltage-dependent Na+ and Ca2+ channel activity.Sleep Spindles Characteristics in Insomnia Sufferers and Their Relationship with Sleep Misperception Looking for a precursor of spontaneous Sleep Slow Oscillations in human sleep: The role of the sigma activity.Cellular and neurochemical basis of sleep stages in the thalamocortical network.From sleep spindles of natural sleep to spike and wave discharges of typical absence seizures: is the hypothesis still valid?Neuronal oscillations in sleep: insights from functional neuroimaging.Sleep Spindles: Where They Come From, What They Do.Neural oscillations during non-rapid eye movement sleep as biomarkers of circuit dysfunction in schizophrenia.Brain state dependent activity in the cortex and thalamus Differential Covariance: A New Class of Methods to Estimate Sparse Connectivity from Neural Recordings.Tapping the Brakes: Cellular and Synaptic Mechanisms that Regulate Thalamic Oscillations.Functional Anatomy of Non-REM Sleep.Dynamic interaction of spindles and gamma activity during cortical slow oscillations and its modulation by subcortical afferents.Individual Differences in Frequency and Topography of Slow and Fast Sleep Spindles.A time-frequency analysis of the dynamics of cortical networks of sleep spindles from MEG-EEG recordings.Differential spike timing and phase dynamics of reticular thalamic and prefrontal cortical neuronal populations during sleep spindles The spindles: are they still thalamic?

P2860

Q26740197-AAC0D50F-F7EE-43AE-976E-4040729EB758 Q26746908-B956AC1C-2C07-490E-A7E7-11506CF199C9 Q26748715-D816D112-8503-4D93-8B50-8F834F666D14 Q26752871-41A2FE9E-7441-4530-B1D6-10696F7EAD92 Q30368463-61212A37-AC93-42B2-A99C-1248C8DA551E Q30373773-FDA7EB9F-0295-4DD9-8495-56C710874795 Q30411601-4173DE73-498A-418C-ACEF-DDAB2831A855 Q30455251-783F2FE8-CF24-45B4-A644-EF264D0A3173 Q30459855-BFDA54EB-D56C-41F8-92A0-A9784186223D Q33762784-87EF7426-1A7F-45AF-9BAD-E9E1B5B265AB Q33780324-7A266755-E9B6-4121-B90D-96B735475CD2 Q34256366-8DB42CE4-D117-48D0-993A-FFF7B1240CFC Q34552284-C83F6E66-BA4E-4560-828E-C38DFC55D9CA Q34634241-88B41C28-7E3F-4670-8719-5E59B762F2C4 Q34937440-3319EE57-FCF3-4A42-8198-8DC8971D34BA Q35589608-90DDA3EC-F019-48FD-901B-C936DB4B2275 Q35607222-BA2423F9-2536-419B-B98E-E2FF04D942E0 Q35928191-8A5C4073-E6BA-428A-B487-AB600327C6E0 Q36097982-EA8CF9E0-5792-46DF-A64C-5E88A0F87EA7 Q36099632-B8331F54-D1C9-40C0-9910-6A25233B1F72 Q36192642-C371795C-B2E2-451E-B422-6CDDBC574491 Q36389410-3D83CFF6-CE38-4245-AF0B-772D7F489F80 Q36784004-F884B5A1-10D2-4A04-A3A8-72A6F39771D5 Q36831284-ABB62F11-BC08-4E53-A5A3-E5BF075E284A Q37121283-39747F90-A727-4194-91E0-6AA8A781E2EE Q37292828-00A3A8E8-EF1A-4F54-B7D9-EEE48174388E Q37418275-4024E28B-3AC7-4614-B127-6CF06C26D1EE Q37921156-6FE46F7B-1937-489C-93B8-286F415BBC65 Q37978524-8775616F-627C-4E4D-8C48-ABC36526A9C9 Q38131976-B4E22672-01B0-4FFE-882E-4C16E4DCB7EE Q38203026-B5A77FA0-BE9F-4ECC-865E-32AD08FE5473 Q38280472-5B188EE0-6981-48B5-A386-E0EA7DE60878 Q38640777-886715CD-A346-488F-A2F2-8CE397576813 Q39018797-4DB78675-77C6-4ED6-BC60-6C9F68FBD3D8 Q39103285-80EF5124-B949-4777-B304-5764D4FE27CE Q41289459-4CC0D53B-1376-4EC7-9914-71C0B08E48DB Q41457128-57645A8D-F4E1-4B0F-87A9-66700D3583C3 Q41976628-F138B3C3-9873-4584-9699-98A9D43BBD7E Q42022084-FE744D8F-CC04-40E1-8A3E-A025678A268E Q42712816-33A121BC-FFE3-4D55-B833-E8CBC7408E57

P2860

Corticothalamic feedback controls sleep spindle duration in vivo

http://www.wikidata.org/entity/Q35091550

description

2011 nî lūn-bûn

@nan

2011 թուականի Յունիսին հրատարակուած գիտական յօդուած

@hyw

2011 թվականի հունիսին հրատարակված գիտական հոդված

@hy

2011年の論文

@ja

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

@wuu

name

Corticothalamic feedback controls sleep spindle duration in vivo

@ast

Corticothalamic feedback controls sleep spindle duration in vivo

@en

type

label

Corticothalamic feedback controls sleep spindle duration in vivo

@ast

Corticothalamic feedback controls sleep spindle duration in vivo

@en

prefLabel

Corticothalamic feedback controls sleep spindle duration in vivo

@ast

Corticothalamic feedback controls sleep spindle duration in vivo

@en

P1433

Q35091550-FF12DC33-1CB5-4713-87A9-97BD6FC2F340

P1476

Q35091550-9A342977-2843-4A90-9087-4E5158E67FE5

P2093

Q35091550-4C2824E2-8D19-475C-8E0D-9D48F94B6DF7

Q35091550-9FBB0B1D-4173-4FCF-B2F1-E37F4106E430

Q35091550-AC3145D0-F011-42E7-9F34-88014A816CB0

Q35091550-C54BAC22-8259-494F-947D-916D8E572175

Q35091550-D628F89D-078E-4872-BA69-8E9CF9FC19F7

P2860

Q35091550-00262883-8BAE-4C5E-8D49-2EE0AACAD902

Q35091550-28464061-9018-4EAC-96B6-A1CAD84DB7F7

Q35091550-2C647E75-2472-4675-A05B-148962B6A597

Q35091550-2DE0D858-5692-4CBE-BAB1-67D2C386AA38

Q35091550-35B849DD-FD99-4C25-9A04-4E6F5342E30C

Q35091550-3686BC57-1E5A-4F3D-A566-2E32C06A9846

Q35091550-37844F4A-4AA0-4B1E-8637-1C41AE7AA77D

Q35091550-3B371D83-E4D9-4379-9279-3495B60B33BB

Q35091550-3E046AFA-398E-4ED2-BC2E-75C4D20EA78A

Q35091550-4589AA99-9768-4494-AA6D-B9B2F6BA7F6C

P304

Q35091550-B66DB0ED-D8EA-4DC6-9AA7-D9B635B83F29

P31

Q35091550-55A84FBA-33EE-4696-9A5F-DD3ECFD41DC5

P356

Q35091550-A9E7DEF7-866B-4C35-ACAB-3B99B60C6386

P407

Q35091550-03D7A59E-9A6A-47F6-96FD-1E7D66DABF2C

P433

Q35091550-773E8663-174B-4114-9C77-CDA668A68F74

P478

Q35091550-5CED2DC5-8664-49AD-89D5-0C96AD792211

P50

Q35091550-199E109B-3FAF-4C48-AE15-3E5F495E60DD

P577

Q35091550-7ED06436-0A59-47EC-B300-9F999161FCED

P698

Q35091550-61584D5C-0C88-48C3-AD96-99B82EE774F9

P932

Q35091550-280F77CC-2A63-430D-869E-65794CF425D8

P356

JNEUROSCI.0077-11.2011

P1433

Journal of Neuroscience

P1476

Corticothalamic feedback controls sleep spindle duration in vivo

@en

P2093

Igor Timofeev

http://www.w3.org/2001/XMLSchema#string

Maxim Bazhenov

http://www.w3.org/2001/XMLSchema#string

Maxime Bonjean

http://www.w3.org/2001/XMLSchema#string

Maxime Lemieux

http://www.w3.org/2001/XMLSchema#string

Tanya Baker

http://www.w3.org/2001/XMLSchema#string

P2860

A quantitative description of membrane current and its application to conduction and excitation in nerve

Simulation of the currents involved in rhythmic oscillations in thalamic relay neurons

Thalamocortical oscillations in the sleeping and aroused brain

A model for 8-10 Hz spindling in interconnected thalamic relay and reticularis neurons

Why do we sleep?

Modulation of brain gene expression during sleep and wakefulness: a review of recent findings.

Sleep-dependent memory consolidation.

Coordinated interactions between hippocampal ripples and cortical spindles during slow-wave sleep.

Learning-dependent increases in sleep spindle density.

Sleep spindle-related activity in the human EEG and its relation to general cognitive and learning abilities.

P304

9124-9134

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1523/JNEUROSCI.0077-11.2011

http://www.w3.org/2001/XMLSchema#string

P407

P433

25

http://www.w3.org/2001/XMLSchema#string

P478

31

http://www.w3.org/2001/XMLSchema#string

P50

Terrence J. Sejnowski

P577

2011-06-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

21697364

http://www.w3.org/2001/XMLSchema#string

P932

3131502

http://www.w3.org/2001/XMLSchema#string