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Items: 1 to 20 of 247

1.

Simultaneous electroencephalographic and functional magnetic resonance imaging indicate impaired cortical top-down processing in association with anesthetic-induced unconsciousness.

Jordan D, Ilg R, Riedl V, Schorer A, Grimberg S, Neufang S, Omerovic A, Berger S, Untergehrer G, Preibisch C, Schulz E, Schuster T, Schröter M, Spoormaker V, Zimmer C, Hemmer B, Wohlschläger A, Kochs EF, Schneider G.

Anesthesiology. 2013 Nov;119(5):1031-42. doi: 10.1097/ALN.0b013e3182a7ca92.

PMID:
23969561
2.

Reconfiguration of network hub structure after propofol-induced unconsciousness.

Lee H, Mashour GA, Noh GJ, Kim S, Lee U.

Anesthesiology. 2013 Dec;119(6):1347-59. doi: 10.1097/ALN.0b013e3182a8ec8c.

3.

Breakdown of within- and between-network resting state functional magnetic resonance imaging connectivity during propofol-induced loss of consciousness.

Boveroux P, Vanhaudenhuyse A, Bruno MA, Noirhomme Q, Lauwick S, Luxen A, Degueldre C, Plenevaux A, Schnakers C, Phillips C, Brichant JF, Bonhomme V, Maquet P, Greicius MD, Laureys S, Boly M.

Anesthesiology. 2010 Nov;113(5):1038-53. doi: 10.1097/ALN.0b013e3181f697f5.

PMID:
20885292
4.

Posterior cingulate cortex-related co-activation patterns: a resting state FMRI study in propofol-induced loss of consciousness.

Amico E, Gomez F, Di Perri C, Vanhaudenhuyse A, Lesenfants D, Boveroux P, Bonhomme V, Brichant JF, Marinazzo D, Laureys S.

PLoS One. 2014 Jun 30;9(6):e100012. doi: 10.1371/journal.pone.0100012. eCollection 2014.

5.

Brain functional integration decreases during propofol-induced loss of consciousness.

Schrouff J, Perlbarg V, Boly M, Marrelec G, Boveroux P, Vanhaudenhuyse A, Bruno MA, Laureys S, Phillips C, Pélégrini-Issac M, Maquet P, Benali H.

Neuroimage. 2011 Jul 1;57(1):198-205. doi: 10.1016/j.neuroimage.2011.04.020. Epub 2011 Apr 16.

PMID:
21524704
6.

Thalamus, brainstem and salience network connectivity changes during propofol-induced sedation and unconsciousness.

Guldenmund P, Demertzi A, Boveroux P, Boly M, Vanhaudenhuyse A, Bruno MA, Gosseries O, Noirhomme Q, Brichant JF, Bonhomme V, Laureys S, Soddu A.

Brain Connect. 2013;3(3):273-85. doi: 10.1089/brain.2012.0117.

PMID:
23547875
7.

Disruption of frontal-parietal communication by ketamine, propofol, and sevoflurane.

Lee U, Ku S, Noh G, Baek S, Choi B, Mashour GA.

Anesthesiology. 2013 Jun;118(6):1264-75. doi: 10.1097/ALN.0b013e31829103f5.

8.

Connectivity changes underlying spectral EEG changes during propofol-induced loss of consciousness.

Boly M, Moran R, Murphy M, Boveroux P, Bruno MA, Noirhomme Q, Ledoux D, Bonhomme V, Brichant JF, Tononi G, Laureys S, Friston K.

J Neurosci. 2012 May 16;32(20):7082-90. doi: 10.1523/JNEUROSCI.3769-11.2012.

9.

Multiphasic modification of intrinsic functional connectivity of the rat brain during increasing levels of propofol.

Liu X, Pillay S, Li R, Vizuete JA, Pechman KR, Schmainda KM, Hudetz AG.

Neuroimage. 2013 Dec;83:581-92. doi: 10.1016/j.neuroimage.2013.07.003. Epub 2013 Jul 10.

10.

Fronto-parietal connectivity is a non-static phenomenon with characteristic changes during unconsciousness.

Untergehrer G, Jordan D, Kochs EF, Ilg R, Schneider G.

PLoS One. 2014 Jan 27;9(1):e87498. doi: 10.1371/journal.pone.0087498. eCollection 2014.

11.

Directional connectivity between frontal and posterior brain regions is altered with increasing concentrations of propofol.

Maksimow A, Silfverhuth M, Långsjö J, Kaskinoro K, Georgiadis S, Jääskeläinen S, Scheinin H.

PLoS One. 2014 Nov 24;9(11):e113616. doi: 10.1371/journal.pone.0113616. eCollection 2014.

12.

Feedback suppression in anesthesia. Is it reversible?

Hudetz AG.

Conscious Cogn. 2009 Dec;18(4):1079-81. doi: 10.1016/j.concog.2009.08.004. Epub 2009 Sep 8.

PMID:
19740677
13.

Dynamic change of global and local information processing in propofol-induced loss and recovery of consciousness.

Monti MM, Lutkenhoff ES, Rubinov M, Boveroux P, Vanhaudenhuyse A, Gosseries O, Bruno MA, Noirhomme Q, Boly M, Laureys S.

PLoS Comput Biol. 2013;9(10):e1003271. doi: 10.1371/journal.pcbi.1003271. Epub 2013 Oct 17.

14.

The thalamus and brainstem act as key hubs in alterations of human brain network connectivity induced by mild propofol sedation.

Gili T, Saxena N, Diukova A, Murphy K, Hall JE, Wise RG.

J Neurosci. 2013 Feb 27;33(9):4024-31. doi: 10.1523/JNEUROSCI.3480-12.2013.

15.

Changes in effective connectivity by propofol sedation.

Gómez F, Phillips C, Soddu A, Boly M, Boveroux P, Vanhaudenhuyse A, Bruno MA, Gosseries O, Bonhomme V, Laureys S, Noirhomme Q.

PLoS One. 2013 Aug 19;8(8):e71370. doi: 10.1371/journal.pone.0071370. eCollection 2013.

16.

Differential effects of deep sedation with propofol on the specific and nonspecific thalamocortical systems: a functional magnetic resonance imaging study.

Liu X, Lauer KK, Ward BD, Li SJ, Hudetz AG.

Anesthesiology. 2013 Jan;118(1):59-69. doi: 10.1097/ALN.0b013e318277a801.

17.

The directionality and functional organization of frontoparietal connectivity during consciousness and anesthesia in humans.

Lee U, Kim S, Noh GJ, Choi BM, Hwang E, Mashour GA.

Conscious Cogn. 2009 Dec;18(4):1069-78. doi: 10.1016/j.concog.2009.04.004. Epub 2009 May 13.

PMID:
19443244
18.

Rapid fragmentation of neuronal networks at the onset of propofol-induced unconsciousness.

Lewis LD, Weiner VS, Mukamel EA, Donoghue JA, Eskandar EN, Madsen JR, Anderson WS, Hochberg LR, Cash SS, Brown EN, Purdon PL.

Proc Natl Acad Sci U S A. 2012 Dec 4;109(49):E3377-86. doi: 10.1073/pnas.1210907109. Epub 2012 Nov 5.

19.

Disruption of thalamic functional connectivity is a neural correlate of dexmedetomidine-induced unconsciousness.

Akeju O, Loggia ML, Catana C, Pavone KJ, Vazquez R, Rhee J, Contreras Ramirez V, Chonde DB, Izquierdo-Garcia D, Arabasz G, Hsu S, Habeeb K, Hooker JM, Napadow V, Brown EN, Purdon PL.

Elife. 2014 Nov 28;3:e04499. doi: 10.7554/eLife.04499.

20.

Spatiotemporal reconfiguration of large-scale brain functional networks during propofol-induced loss of consciousness.

Schröter MS, Spoormaker VI, Schorer A, Wohlschläger A, Czisch M, Kochs EF, Zimmer C, Hemmer B, Schneider G, Jordan D, Ilg R.

J Neurosci. 2012 Sep 12;32(37):12832-40. doi: 10.1523/JNEUROSCI.6046-11.2012.

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