A citation-based method for searching scientific literature

Ileana L Hanganu, Akihito Okabe, Volkmar Lessmann, Heiko J Luhmann. Cereb Cortex 2009
Times Cited: 75







List of co-cited articles
1187 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


Rapid developmental switch in the mechanisms driving early cortical columnar networks.
Erwan Dupont, Ileana L Hanganu, Werner Kilb, Silke Hirsch, Heiko J Luhmann. Nature 2006
214
64

The subplate and early cortical circuits.
Patrick O Kanold, Heiko J Luhmann. Annu Rev Neurosci 2010
258
46

Three patterns of oscillatory activity differentially synchronize developing neocortical networks in vivo.
Jenq-Wei Yang, Ileana L Hanganu-Opatz, Jyh-Jang Sun, Heiko J Luhmann. J Neurosci 2009
196
45

Early motor activity drives spindle bursts in the developing somatosensory cortex.
Rustem Khazipov, Anton Sirota, Xavier Leinekugel, Gregory L Holmes, Yehezkel Ben-Ari, György Buzsáki. Nature 2004
375
38

Subplate cells: amplifiers of neuronal activity in the developing cerebral cortex.
Heiko J Luhmann, Werner Kilb, Ileana L Hanganu-Opatz. Front Neuroanat 2009
73
39


Functional synaptic projections onto subplate neurons in neonatal rat somatosensory cortex.
Ileana L Hanganu, Werner Kilb, Heiko J Luhmann. J Neurosci 2002
121
34

Retinal waves trigger spindle bursts in the neonatal rat visual cortex.
Ileana L Hanganu, Yehezkel Ben-Ari, Rustem Khazipov. J Neurosci 2006
198
34


Role of subplate neurons in functional maturation of visual cortical columns.
Patrick O Kanold, Prakash Kara, R Clay Reid, Carla J Shatz. Science 2003
209
30

Large-scale oscillatory calcium waves in the immature cortex.
O Garaschuk, J Linn, J Eilers, A Konnerth. Nat Neurosci 2000
348
30


Requirement for subplate neurons in the formation of thalamocortical connections.
A Ghosh, A Antonini, S K McConnell, C J Shatz. Nature 1990
440
28

Subplate neurons promote spindle bursts and thalamocortical patterning in the neonatal rat somatosensory cortex.
Else A Tolner, Aminah Sheikh, Alexey Y Yukin, Kai Kaila, Patrick O Kanold. J Neurosci 2012
105
28




Rapid cortical oscillations and early motor activity in premature human neonate.
Mathieu Milh, Anna Kaminska, Catherine Huon, Alexandre Lapillonne, Yehezkel Ben-Ari, Rustem Khazipov. Cereb Cortex 2007
165
25

Development of neonatal EEG activity: from phenomenology to physiology.
Sampsa Vanhatalo, Kai Kaila. Semin Fetal Neonatal Med 2006
203
25





Development of the human cerebral cortex: Boulder Committee revisited.
Irina Bystron, Colin Blakemore, Pasko Rakic. Nat Rev Neurosci 2008
573
21

Sequential generation of two distinct synapse-driven network patterns in developing neocortex.
Camille Allène, Adriano Cattani, James B Ackman, Paolo Bonifazi, Laurent Aniksztejn, Yehezkel Ben-Ari, Rosa Cossart. J Neurosci 2008
177
21

Functional excitatory microcircuits in neonatal cortex connect thalamus and layer 4.
Cuiping Zhao, Joseph P Y Kao, Patrick O Kanold. J Neurosci 2009
73
21



The origin of spontaneous activity in the developing auditory system.
Nicolas X Tritsch, Eunyoung Yi, Jonathan E Gale, Elisabeth Glowatzki, Dwight E Bergles. Nature 2007
356
20

Early γ oscillations synchronize developing thalamus and cortex.
Marat Minlebaev, Matthew Colonnese, Timur Tsintsadze, Anton Sirota, Roustem Khazipov. Science 2011
165
20


Spontaneous electrical activity in the human fetal cortex in vitro.
Anna R Moore, Wen-Liang Zhou, Igor Jakovcevski, Nada Zecevic, Srdjan D Antic. J Neurosci 2011
66
21

Thalamic network oscillations synchronize ontogenetic columns in the newborn rat barrel cortex.
Jenq-Wei Yang, Shuming An, Jyh-Jang Sun, Vicente Reyes-Puerta, Jennifer Kindler, Thomas Berger, Werner Kilb, Heiko J Luhmann. Cereb Cortex 2013
109
18

Development, evolution and pathology of neocortical subplate neurons.
Anna Hoerder-Suabedissen, Zoltán Molnár. Nat Rev Neurosci 2015
141
18



Thalamocortical development: how are we going to get there?
Guillermina López-Bendito, Zoltán Molnár. Nat Rev Neurosci 2003
319
17

Novel markers reveal subpopulations of subplate neurons in the murine cerebral cortex.
Anna Hoerder-Suabedissen, Wei Zhi Wang, Sheena Lee, Kay E Davies, André M Goffinet, Sonja Rakić, John Parnavelas, Kerstin Reim, Margareta Nicolić, Ole Paulsen,[...]. Cereb Cortex 2009
100
17


Spontaneous Neuronal Activity in Developing Neocortical Networks: From Single Cells to Large-Scale Interactions.
Heiko J Luhmann, Anne Sinning, Jenq-Wei Yang, Vicente Reyes-Puerta, Maik C Stüttgen, Sergei Kirischuk, Werner Kilb. Front Neural Circuits 2016
121
17


Network mechanisms of spindle-burst oscillations in the neonatal rat barrel cortex in vivo.
Marat Minlebaev, Yehezkel Ben-Ari, Rustem Khazipov. J Neurophysiol 2007
140
16

Cholinergic modulation of spindle bursts in the neonatal rat visual cortex in vivo.
Ileana L Hanganu, Jochen F Staiger, Yehezkel Ben-Ari, Rustem Khazipov. J Neurosci 2007
49
24

Electrical excitability of early neurons in the human cerebral cortex during the second trimester of gestation.
Anna R Moore, Radmila Filipovic, Zhicheng Mo, Matthew N Rasband, Nada Zecevic, Srdjan D Antic. Cereb Cortex 2009
71
16

Prenatal development of the visual system in rhesus monkey.
P Rakic. Philos Trans R Soc Lond B Biol Sci 1977
628
16

Mechanisms underlying spontaneous patterned activity in developing neural circuits.
Aaron G Blankenship, Marla B Feller. Nat Rev Neurosci 2010
447
16


Electrical activity patterns and the functional maturation of the neocortex.
Werner Kilb, Sergei Kirischuk, Heiko J Luhmann. Eur J Neurosci 2011
87
16

Secondary expansion of the transient subplate zone in the developing cerebrum of human and nonhuman primates.
Alvaro Duque, Zeljka Krsnik, Ivica Kostović, Pasko Rakic. Proc Natl Acad Sci U S A 2016
61
19

The development of synapses in cerebral cortex of the human fetus.
M E Molliver, I Kostović, H van der Loos. Brain Res 1973
298
14


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.