A citation-based method for searching scientific literature

Timothy Bellay, Andreas Klaus, Saurav Seshadri, Dietmar Plenz. Elife 2015
Times Cited: 57







List of co-cited articles
407 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


Neuronal avalanches in neocortical circuits.
John M Beggs, Dietmar Plenz. J Neurosci 2003
804
66

Spontaneous cortical activity in awake monkeys composed of neuronal avalanches.
Thomas Petermann, Tara C Thiagarajan, Mikhail A Lebedev, Miguel A L Nicolelis, Dante R Chialvo, Dietmar Plenz. Proc Natl Acad Sci U S A 2009
254
54

Neuronal avalanches imply maximum dynamic range in cortical networks at criticality.
Woodrow L Shew, Hongdian Yang, Thomas Petermann, Rajarshi Roy, Dietmar Plenz. J Neurosci 2009
277
52

Information capacity and transmission are maximized in balanced cortical networks with neuronal avalanches.
Woodrow L Shew, Hongdian Yang, Shan Yu, Rajarshi Roy, Dietmar Plenz. J Neurosci 2011
256
50

Neuronal avalanches in the resting MEG of the human brain.
Oren Shriki, Jeff Alstott, Frederick Carver, Tom Holroyd, Richard N A Henson, Marie L Smith, Richard Coppola, Edward Bullmore, Dietmar Plenz. J Neurosci 2013
131
40

Maximizing Sensory Dynamic Range by Tuning the Cortical State to Criticality.
Shree Hari Gautam, Thanh T Hoang, Kylie McClanahan, Stephen K Grady, Woodrow L Shew. PLoS Comput Biol 2015
59
40

Criticality in large-scale brain FMRI dynamics unveiled by a novel point process analysis.
Enzo Tagliazucchi, Pablo Balenzuela, Daniel Fraiman, Dante R Chialvo. Front Physiol 2012
322
38


The functional benefits of criticality in the cortex.
Woodrow L Shew, Dietmar Plenz. Neuroscientist 2013
197
35

Voltage imaging of waking mouse cortex reveals emergence of critical neuronal dynamics.
Gregory Scott, Erik D Fagerholm, Hiroki Mutoh, Robert Leech, David J Sharp, Woodrow L Shew, Thomas Knöpfel. J Neurosci 2014
79
35

Crackling noise.
J P Sethna, K A Dahmen, C R Myers. Nature 2001
376
33

Universal critical dynamics in high resolution neuronal avalanche data.
Nir Friedman, Shinya Ito, Braden A W Brinkman, Masanori Shimono, R E Lee DeVille, Karin A Dahmen, John M Beggs, Thomas C Butler. Phys Rev Lett 2012
174
31


Critical-state dynamics of avalanches and oscillations jointly emerge from balanced excitation/inhibition in neuronal networks.
Simon-Shlomo Poil, Richard Hardstone, Huibert D Mansvelder, Klaus Linkenkaer-Hansen. J Neurosci 2012
176
29

Neuronal avalanches in spontaneous activity in vivo.
Gerald Hahn, Thomas Petermann, Martha N Havenith, Shan Yu, Wolf Singer, Dietmar Plenz, Danko Nikolic. J Neurophysiol 2010
103
28

Maximal variability of phase synchrony in cortical networks with neuronal avalanches.
Hongdian Yang, Woodrow L Shew, Rajarshi Roy, Dietmar Plenz. J Neurosci 2012
111
28

Maintained avalanche dynamics during task-induced changes of neuronal activity in nonhuman primates.
Shan Yu, Tiago L Ribeiro, Christian Meisel, Samantha Chou, Andrew Mitz, Richard Saunders, Dietmar Plenz. Elife 2017
26
61

Spike avalanches in vivo suggest a driven, slightly subcritical brain state.
Viola Priesemann, Michael Wibral, Mario Valderrama, Robert Pröpper, Michel Le Van Quyen, Theo Geisel, Jochen Triesch, Danko Nikolić, Matthias H J Munk. Front Syst Neurosci 2014
108
26

Brain organization into resting state networks emerges at criticality on a model of the human connectome.
Ariel Haimovici, Enzo Tagliazucchi, Pablo Balenzuela, Dante R Chialvo. Phys Rev Lett 2013
197
26

Spike avalanches exhibit universal dynamics across the sleep-wake cycle.
Tiago L Ribeiro, Mauro Copelli, Fábio Caixeta, Hindiael Belchior, Dante R Chialvo, Miguel A L Nicolelis, Sidarta Ribeiro. PLoS One 2010
89
26

Neuronal long-range temporal correlations and avalanche dynamics are correlated with behavioral scaling laws.
J Matias Palva, Alexander Zhigalov, Jonni Hirvonen, Onerva Korhonen, Klaus Linkenkaer-Hansen, Satu Palva. Proc Natl Acad Sci U S A 2013
216
26

Being critical of criticality in the brain.
John M Beggs, Nicholas Timme. Front Physiol 2012
184
24


The organizing principles of neuronal avalanches: cell assemblies in the cortex?
Dietmar Plenz, Tara C Thiagarajan. Trends Neurosci 2007
197
21

Self-organization and neuronal avalanches in networks of dissociated cortical neurons.
V Pasquale, P Massobrio, L L Bologna, M Chiappalone, S Martinoia. Neuroscience 2008
176
21

Predicting criticality and dynamic range in complex networks: effects of topology.
Daniel B Larremore, Woodrow L Shew, Juan G Restrepo. Phys Rev Lett 2011
87
19


Power-law statistics and universal scaling in the absence of criticality.
Jonathan Touboul, Alain Destexhe. Phys Rev E 2017
50
22

Self-organized criticality as a fundamental property of neural systems.
Janina Hesse, Thilo Gross. Front Syst Neurosci 2014
136
17

Neuronal avalanches differ from wakefulness to deep sleep--evidence from intracranial depth recordings in humans.
Viola Priesemann, Mario Valderrama, Michael Wibral, Michel Le Van Quyen. PLoS Comput Biol 2013
83
17

Fading signatures of critical brain dynamics during sustained wakefulness in humans.
Christian Meisel, Eckehard Olbrich, Oren Shriki, Peter Achermann. J Neurosci 2013
70
17

Scale-invariant neuronal avalanche dynamics and the cut-off in size distributions.
Shan Yu, Andreas Klaus, Hongdian Yang, Dietmar Plenz. PLoS One 2014
27
37

The asynchronous state in cortical circuits.
Alfonso Renart, Jaime de la Rocha, Peter Bartho, Liad Hollender, Néstor Parga, Alex Reyes, Kenneth D Harris. Science 2010
585
17


Self-organized criticality occurs in non-conservative neuronal networks during Up states.
Daniel Millman, Stefan Mihalas, Alfredo Kirkwood, Ernst Niebur. Nat Phys 2010
82
15

Higher-order interactions characterized in cortical activity.
Shan Yu, Hongdian Yang, Hiroyuki Nakahara, Gustavo S Santos, Danko Nikolić, Dietmar Plenz. J Neurosci 2011
94
15


Subsampling effects in neuronal avalanche distributions recorded in vivo.
Viola Priesemann, Matthias H J Munk, Michael Wibral. BMC Neurosci 2009
66
15

Adaptation towards scale-free dynamics improves cortical stimulus discrimination at the cost of reduced detection.
Wesley P Clawson, Nathaniel C Wright, Ralf Wessel, Woodrow L Shew. PLoS Comput Biol 2017
29
31

Landau-Ginzburg theory of cortex dynamics: Scale-free avalanches emerge at the edge of synchronization.
Serena di Santo, Pablo Villegas, Raffaella Burioni, Miguel A Muñoz. Proc Natl Acad Sci U S A 2018
34
26

Criticality between Cortical States.
Antonio J Fontenele, Nivaldo A P de Vasconcelos, Thaís Feliciano, Leandro A A Aguiar, Carina Soares-Cunha, Bárbara Coimbra, Leonardo Dalla Porta, Sidarta Ribeiro, Ana João Rodrigues, Nuno Sousa,[...]. Phys Rev Lett 2019
46
19


Cortical state and attention.
Kenneth D Harris, Alexander Thiele. Nat Rev Neurosci 2011
458
14



Inhibition causes ceaseless dynamics in networks of excitable nodes.
Daniel B Larremore, Woodrow L Shew, Edward Ott, Francesco Sorrentino, Juan G Restrepo. Phys Rev Lett 2014
32
25

Cascades and cognitive state: focused attention incurs subcritical dynamics.
Erik D Fagerholm, Romy Lorenz, Gregory Scott, Martin Dinov, Peter J Hellyer, Nazanin Mirzaei, Clare Leeson, David W Carmichael, David J Sharp, Woodrow L Shew,[...]. J Neurosci 2015
44
18

Reconstruction and Simulation of Neocortical Microcircuitry.
Henry Markram, Eilif Muller, Srikanth Ramaswamy, Michael W Reimann, Marwan Abdellah, Carlos Aguado Sanchez, Anastasia Ailamaki, Lidia Alonso-Nanclares, Nicolas Antille, Selim Arsever,[...]. Cell 2015
523
14

Undersampled critical branching processes on small-world and random networks fail to reproduce the statistics of spike avalanches.
Tiago L Ribeiro, Sidarta Ribeiro, Hindiael Belchior, Fábio Caixeta, Mauro Copelli. PLoS One 2014
28
28



Co-cited is the co-citation frequency, indicating how many articles cite the article together with the query article. Similarity is the co-citation as percentage of the times cited of the query article or the article in the search results, whichever is the lowest. These numbers are calculated for the last 100 citations when articles are cited more than 100 times.