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Boris C. Bernhardt
Researcher at Montreal Neurological Institute and Hospital
Publications - 291
Citations - 12590
Boris C. Bernhardt is an academic researcher from Montreal Neurological Institute and Hospital. The author has contributed to research in topics: Temporal lobe & Connectome. The author has an hindex of 49, co-authored 234 publications receiving 8076 citations. Previous affiliations of Boris C. Bernhardt include Max Planck Society & McGill University.
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Journal ArticleDOI
The Neural Basis of Empathy
Boris C. Bernhardt,Tania Singer +1 more
TL;DR: Empathy-related insular and cingulate activity may reflect domain-general computations representing and predicting feeling states in self and others, likely guiding adaptive homeostatic responses and goal-directed behavior in dynamic social contexts.
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Graph-Theoretical Analysis Reveals Disrupted Small-World Organization of Cortical Thickness Correlation Networks in Temporal Lobe Epilepsy
TL;DR: Bootstrap simulations showed high reproducibility of network parameters across random subsamplings, indicating that altered network topology in TLE is a consistent finding, implying adverse effects of epileptogenesis on large-scale network organization.
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Structural brain abnormalities in the common epilepsies assessed in a worldwide ENIGMA study.
Christopher D. Whelan,Christopher D. Whelan,Andre Altmann,Juan A. Botía,Neda Jahanshad,Derrek P. Hibar,Julie Absil,Saud Alhusaini,Saud Alhusaini,Marina K. M. Alvim,Pia Auvinen,Emanuele Bartolini,Felipe P. G. Bergo,Tauana Bernardes,Karen Blackmon,Karen Blackmon,Barbara Braga,Maria Eugenia Caligiuri,Anna Calvo,Sarah J. A. Carr,Jian Chen,Shuai Chen,Andrea Cherubini,Philippe David,Martin Domin,Sonya Foley,Wendy Franca,Gerrit Haaker,Dmitry Isaev,Simon S. Keller,Raviteja Kotikalapudi,Magdalena A. Kowalczyk,Ruben Kuzniecky,Soenke Langner,Matteo Lenge,Kelly M. Leyden,Min Liu,Richard Q. Loi,Pascal Martin,Mario Mascalchi,Mario Mascalchi,Marcia Elisabete Morita,Jose C. Pariente,Raúl Rodríguez-Cruces,Christian Rummel,Taavi Saavalainen,Mira Semmelroch,Mariasavina Severino,Rhys H. Thomas,Rhys H. Thomas,Manuela Tondelli,Domenico Tortora,Anna Elisabetta Vaudano,Lucy Vivash,Lucy Vivash,Felix von Podewils,Jan Wagner,Jan Wagner,Bernd Weber,Yi Yao,Clarissa L. Yasuda,Guohao Zhang,Núria Bargalló,Benjamin Bender,Neda Bernasconi,Andrea Bernasconi,Boris C. Bernhardt,Ingmar Blümcke,Chad Carlson,Chad Carlson,Gianpiero L. Cavalleri,Fernando Cendes,Luis Concha,Norman Delanty,Norman Delanty,Chantal Depondt,Orrin Devinsky,Colin P. Doherty,Niels K. Focke,Antonio Gambardella,Renzo Guerrini,Khalid Hamandi,Khalid Hamandi,Graeme D. Jackson,Graeme D. Jackson,Reetta Kälviäinen,Peter Kochunov,Patrick Kwan,Angelo Labate,Carrie R. McDonald,Stefano Meletti,Terence J. O'Brien,Terence J. O'Brien,Sebastien Ourselin,Mark P. Richardson,Mark P. Richardson,Pasquale Striano,Thomas Thesen,Thomas Thesen,Roland Wiest,Junsong Zhang,Annamaria Vezzani,Mina Ryten,Mina Ryten,Paul M. Thompson,Sanjay M. Sisodiya +105 more
TL;DR: In the largest neuroimaging study to date, Whelan and colleagues report robust structural alterations across and within epilepsy syndromes, including shared volume loss in the thalamus, and widespread cortical thickness differences.
Journal ArticleDOI
Atypical functional connectome hierarchy in autism
Seok-Jun Hong,Seok-Jun Hong,Reinder Vos de Wael,Richard A. I. Bethlehem,Sara Larivière,Casey Paquola,Sofie L. Valk,Michael P. Milham,Michael P. Milham,Adriana Di Martino,Daniel S. Margulies,Jonathan Smallwood,Boris C. Bernhardt +12 more
TL;DR: Evidence of atypical connectivity transitions between sensory and higher-order cortical areas in people with ASD is provided, which could underlie the diverse symptoms.
Journal ArticleDOI
Gradients of structure-function tethering across neocortex.
Bertha Vázquez-Rodríguez,Laura E. Suárez,Ross D. Markello,Golia Shafiei,Casey Paquola,Patric Hagmann,Martijn P. van den Heuvel,Boris C. Bernhardt,R. Nathan Spreng,Bratislav Misic +9 more
TL;DR: The present results demonstrate that structural and functional networks do not align uniformly across the brain, but gradually uncouple in higher-order polysensory areas.