Creativity and the brain: uncovering the neural signature of conceptual expansion

Neuropsychologia
Anna AbrahamChristiane Hermann

Abstract

Neurophysiological studies of creativity thus far have not allowed for clear conclusions to be made regarding the specific neural underpinnings of such complex cognition due to overgeneralizations concerning the creativity construct, heterogeneity in the type of creativity tasks used, and the questionable efficacy of the employed comparison tasks. A novel experimental design was developed in the present fMRI study which rendered it possible to investigate a critical facet of creative cognition - that of conceptual expansion - as distinct from general divergent thinking, working memory, or cognitive load. Brain regions involved in the retention, retrieval and integration of conceptual knowledge such as the anterior inferior frontal gyrus, the temporal poles and the lateral frontopolar cortex were found to be selectively involved during conceptual expansion. The findings go against generic ideas that argue for the dominance of the right hemisphere during creative thinking and indicate the necessity to reconsider the functions of regions such as the anterior cingulate cortex to include more abstract facets of cognitive control. This study represents a new direction in the investigation of creativity in that it highlights the neces...Continue Reading

References

Sep 1, 1965·Journal of Personality·M A Wallach, N Kogan
Feb 7, 1998·Proceedings of the National Academy of Sciences of the United States of America·S L Thompson-SchillM J Farah
Mar 13, 1998·Annual Review of Psychology·D L SchacterW Koutstaal
Jul 11, 1998·Magnetic Resonance in Medicine : Official Journal of the Society of Magnetic Resonance in Medicine·R M BirnR Shaker
Oct 27, 2001·Computerized Medical Imaging and Graphics : the Official Journal of the Computerized Medical Imaging Society·G LohmannD Y von Cramon
May 31, 2002·Memory & Cognition·Thomas B WardKatherine N Saunders
Nov 29, 2002·Cognitive, Affective & Behavioral Neuroscience·Sharon L Thompson-SchillDiane Swick
Dec 17, 2003·Behavioral Neuroscience·Kalina ChristoffJohn D E Gabrieli
Jan 28, 2004·Annual Review of Psychology·John T Wixted
Feb 21, 2004·Nature Reviews. Neuroscience·Narender Ramnani, Adrian M Owen
Jun 3, 2004·International Journal of Psychophysiology : Official Journal of the International Organization of Psychophysiology·N P BechterevaS V Medvedev
May 3, 2005·NeuroImage·Vincent L GraccoBruce Pike
May 7, 2005·Psychonomic Bulletin & Review·Arne Dietrich
Jun 15, 2005·Trends in Cognitive Sciences·Edward M BowdenJohn Kounios
Jun 25, 2005·NeuroImage·Jörn Diedrichsen, Reza Shadmehr
Jul 5, 2005·Brain Research. Cognitive Brain Research·Paul A Howard-JonesGuy Claxton
Jul 16, 2005·Consciousness and Cognition·Ap Dijksterhuis, Teun Meurs
Nov 8, 2005·Current Opinion in Neurobiology·Ann M Graybiel
Jun 6, 2006·Brain Research·Adam E GreenKevin N Dunbar
Apr 17, 2007·Methods : a Companion to Methods in Enzymology·Arne Dietrich
Apr 17, 2007·Methods : a Companion to Methods in Enzymology·Anna Abraham, Sabine Windmann
Apr 17, 2007·Methods : a Companion to Methods in Enzymology·Andreas FinkAljoscha C Neubauer
Aug 7, 2007·Neuropsychologia·David Badre, Anthony D Wagner
Sep 22, 2007·NeuroImage·Rosa Aurora Chávez-EakleCarlos Cruz-Fuentes
Sep 26, 2007·Journal of Cognitive Neuroscience·Christian J FiebachDavid Swinney
Nov 21, 2007·Nature Reviews. Neuroscience·Karalyn PattersonTimothy T Rogers
Jan 15, 2008·Cognitive, Affective & Behavioral Neuroscience·Mattew M Botvinick
Mar 18, 2008·Human Brain Mapping·Lisa Aziz-ZadehMarco Iacoboni
Mar 28, 2008·The Journal of Neuroscience : the Official Journal of the Society for Neuroscience·Jean-Baptiste PochonJonathan D Cohen
Apr 11, 2008·Annals of the New York Academy of Sciences·Matthew A Lambon Ralph, Karalyn Patterson
Aug 6, 2008·Cerebral Cortex·Matthew A Lambon RalphElizabeth Jefferies
Aug 16, 2008·Brain Research·Anna AbrahamD Yves von Cramon
Oct 14, 2008·Neurobiology of Learning and Memory·Ingrid R Olson, Marian Berryhill
Oct 25, 2008·Psychological Science·Chen-Bo ZhongAdam D Galinsky
Nov 8, 2008·Current Opinion in Neurology·Stefano F Cappa
Jan 23, 2009·Psychological Review·Dorothée Legrand, Perrine Ruby

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Citations

Jun 29, 2013·Brain Imaging and Behavior·Anna AbrahamChristiane Hermann
Nov 26, 2015·Trends in Ecology & Evolution·Laurel FogartyMarcus W Feldman
Mar 13, 2016·Archives of Sexual Behavior·Miriam A MosingFredrik Ullén
Apr 16, 2014·Geriatrics & Gerontology International·Seon Ha LeeSoo Ryon Kim
Jan 5, 2014·NeuroImage·Mathias BenedekAljoscha C Neubauer
Nov 26, 2013·NeuroImage·Mathias BenedekAljoscha C Neubauer
Apr 9, 2015·Frontiers in Psychology·Anna Abraham, Andreja Bubic
Apr 9, 2014·Neuroscience Research·Keisuke WakusawaRyuta Kawashima
Jul 11, 2014·Frontiers in Human Neuroscience·Victoria C OleynickPaul D Kieffaber
May 14, 2016·Cognitive Neuropsychiatry·Verena LeutgebAndreas Fink
Sep 30, 2016·Cognitive, Affective & Behavioral Neuroscience·Andreas FinkIlona Papousek
Jul 28, 2016·Human Brain Mapping·Anna Abraham
Jul 25, 2015·Psychological Science·Kevin P MadoreDaniel L Schacter
Mar 11, 2016·Scientific Reports·Mathias BenedekAljoscha C Neubauer
Nov 22, 2017·Cerebral Cortex·Kevin P MadoreDaniel L Schacter
Mar 8, 2014·Social Cognitive and Affective Neuroscience·Wenfu LiJia Liu
Feb 15, 2018·Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences·Oren KolodnyNicole Creanza
Sep 17, 2020·Cerebral Cortex·Rotem Broday-Dvir, Rafael Malach
Nov 16, 2019·Journal of Neuropsychology·Margaret M KeaneMieke Verfaellie
Mar 9, 2017·Brain Imaging and Behavior·Yuxuan CaiMing Liu
Dec 22, 2017·Human Brain Mapping·Nicolas J BourguignonVincent L Gracco
Jul 6, 2018·Human Brain Mapping·Tal IvancovskySimone G Shamay-Tsoory
Sep 23, 2018·Brain Imaging and Behavior·Jiangzhou SunJiang Qiu

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