Litcius/Paper detail

Split-Brain: What We Know Now and Why This is Important for Understanding Consciousness

Edward H.F. de Haan, Paul M. Corballis, Steven A. Hillyard, Carlo A. Marzi, Anil K. Seth, Victor A. F. Lamme, Lukas J. Volz, Mara Fabri, Elizabeth Schechter, Tim Bayne, Michael C. Corballis, Yaïr Pinto

2020Neuropsychology Review86 citationsDOIOpen Access PDF

Abstract

Recently, the discussion regarding the consequences of cutting the corpus callosum ("split-brain") has regained momentum (Corballis, Corballis, Berlucchi, & Marzi, Brain, 141(6), e46, 2018; Pinto et al., Brain, 140(5), 1231-1237, 2017a; Pinto, Lamme, & de Haan, Brain, 140(11), e68, 2017; Volz & Gazzaniga, Brain, 140(7), 2051-2060, 2017; Volz, Hillyard, Miller, & Gazzaniga, Brain, 141(3), e15, 2018). This collective review paper aims to summarize the empirical common ground, to delineate the different interpretations, and to identify the remaining questions. In short, callosotomy leads to a broad breakdown of functional integration ranging from perception to attention. However, the breakdown is not absolute as several processes, such as action control, seem to remain unified. Disagreement exists about the responsible mechanisms for this remaining unity. The main issue concerns the first-person perspective of a split-brain patient. Does a split-brain harbor a split consciousness or is consciousness unified? The current consensus is that the body of evidence is insufficient to answer this question, and different suggestions are made with respect to how future studies might address this paucity. In addition, it is suggested that the answers might not be a simple yes or no but that intermediate conceptualizations need to be considered.

Topics & Concepts

ConsciousnessPsychologyMillerCorpus callosumPsychogenic diseasePerspective (graphical)Cognitive psychologyNeuropsychologyAction (physics)Cognitive scienceNeuroscienceEpistemologyPsychoanalysisCognitionPhilosophyPsychiatryComputer scienceArtificial intelligenceQuantum mechanicsEcologyBiologyPhysicsNeural dynamics and brain functionFunctional Brain Connectivity StudiesEEG and Brain-Computer Interfaces