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Results: 1 to 20 of 97

Similar articles for PubMed (Select 21625335)

1.

Sleep-active cells in the cerebral cortex and their role in slow-wave activity.

Gerashchenko D, Wisor JP, Kilduff TS.

Sleep Biol Rhythms. 2011 Jan;9(s1):71-77.

2.

Sleep active cortical neurons expressing neuronal nitric oxide synthase are active after both acute sleep deprivation and chronic sleep restriction.

Zielinski MR, Kim Y, Karpova SA, Winston S, McCarley RW, Strecker RE, Gerashchenko D.

Neuroscience. 2013 Sep 5;247:35-42. doi: 10.1016/j.neuroscience.2013.05.013. Epub 2013 May 16.

3.

Substance P and the neurokinin-1 receptor regulate electroencephalogram non-rapid eye movement sleep slow-wave activity locally.

Zielinski MR, Karpova SA, Yang X, Gerashchenko D.

Neuroscience. 2015 Jan 22;284:260-72. doi: 10.1016/j.neuroscience.2014.08.062. Epub 2014 Oct 6.

PMID:
25301750
4.

Identification of a population of sleep-active cerebral cortex neurons.

Gerashchenko D, Wisor JP, Burns D, Reh RK, Shiromani PJ, Sakurai T, de la Iglesia HO, Kilduff TS.

Proc Natl Acad Sci U S A. 2008 Jul 22;105(29):10227-32. doi: 10.1073/pnas.0803125105. Epub 2008 Jul 21.

5.

Sleep-active neuronal nitric oxide synthase-positive cells of the cerebral cortex: a local regulator of sleep?

Wisor JP, Gerashchenko D, Kilduff TS.

Curr Top Med Chem. 2011;11(19):2483-9. Review.

7.
8.

Further characterization of sleep-active neuronal nitric oxide synthase neurons in the mouse brain.

Pasumarthi RK, Gerashchenko D, Kilduff TS.

Neuroscience. 2010 Aug 11;169(1):149-57. doi: 10.1016/j.neuroscience.2010.04.066. Epub 2010 May 8.

9.

Sleep slow-wave activity regulates cerebral glycolytic metabolism.

Wisor JP, Rempe MJ, Schmidt MA, Moore ME, Clegern WC.

Cereb Cortex. 2013 Aug;23(8):1978-87. doi: 10.1093/cercor/bhs189. Epub 2012 Jul 5.

10.

Activation of cortical interneurons during sleep: an anatomical link to homeostatic sleep regulation?

Kilduff TS, Cauli B, Gerashchenko D.

Trends Neurosci. 2011 Jan;34(1):10-9. doi: 10.1016/j.tins.2010.09.005. Epub 2010 Oct 26.

11.

Effects of skilled training on sleep slow wave activity and cortical gene expression in the rat.

Hanlon EC, Faraguna U, Vyazovskiy VV, Tononi G, Cirelli C.

Sleep. 2009 Jun;32(6):719-29.

12.

TMS-induced cortical potentiation during wakefulness locally increases slow wave activity during sleep.

Huber R, Esser SK, Ferrarelli F, Massimini M, Peterson MJ, Tononi G.

PLoS One. 2007 Mar 7;2(3):e276.

13.

A role for cortical nNOS/NK1 neurons in coupling homeostatic sleep drive to EEG slow wave activity.

Morairty SR, Dittrich L, Pasumarthi RK, Valladao D, Heiss JE, Gerashchenko D, Kilduff TS.

Proc Natl Acad Sci U S A. 2013 Dec 10;110(50):20272-7. doi: 10.1073/pnas.1314762110. Epub 2013 Nov 4.

14.

Sex-related differences in sleep slow wave activity in major depressive disorder: a high-density EEG investigation.

Plante DT, Landsness EC, Peterson MJ, Goldstein MR, Riedner BA, Wanger T, Guokas JJ, Tononi G, Benca RM.

BMC Psychiatry. 2012 Sep 18;12:146. doi: 10.1186/1471-244X-12-146.

15.
16.

Sleep patterns and homeostatic mechanisms in adolescent mice.

Nelson AB, Faraguna U, Zoltan JT, Tononi G, Cirelli C.

Brain Sci. 2013 Mar 19;3(1):318-43. doi: 10.3390/brainsci3010318.

17.

Synaptic potentiation and sleep need: clues from molecular and electrophysiological studies.

Hanlon EC, Vyazovskiy VV, Faraguna U, Tononi G, Cirelli C.

Curr Top Med Chem. 2011;11(19):2472-82. Review.

PMID:
21906017
18.

Cerebral lactate dynamics across sleep/wake cycles.

Rempe MJ, Wisor JP.

Front Comput Neurosci. 2015 Jan 14;8:174. doi: 10.3389/fncom.2014.00174. eCollection 2014.

19.

Evidence for differential human slow-wave activity regulation across the brain.

Zavada A, Strijkstra AM, Boerema AS, Daan S, Beersma DG.

J Sleep Res. 2009 Mar;18(1):3-10. doi: 10.1111/j.1365-2869.2008.00696.x. Epub 2008 Oct 13.

20.

Complex propagation patterns characterize human cortical activity during slow-wave sleep.

Hangya B, Tihanyi BT, Entz L, Fabó D, Erőss L, Wittner L, Jakus R, Varga V, Freund TF, Ulbert I.

J Neurosci. 2011 Jun 15;31(24):8770-9. doi: 10.1523/JNEUROSCI.1498-11.2011.

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